to get the file

CONFERENCE DIGEST
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Venue: Olympia Congress Centre,
Seefeld, Tirol, Austria
5 - 8 January 2015
Europhysics Conference Abstract Volume 39 A
ISBN N° 2-914771-91-6
www.nanometa.org
5th International Topical Meeting on
Nanophotonics and Metamaterials
Digest and Copyright Information
The papers included in this digest comprise
the short summaries of the 5th International Topical Meeting on Nanophotonics and
Metamaterial Conference held in Seefeld
in Tirol, Austria from 5 to 8 January 2015.
The extended version of the papers (1-page
summaries in pdf format) will be made
available on line during a time period of 2
months beginning from the conference. A
link with login and password is provided
on a separate sheet.
All web browsers (Firefox, Internet Explorer,
Safari or similar) will allow you to download
the on line version.A .pdf viewer (tested with
Adobe Acrobat) will be necessary to view the
papers. This software can be downloaded
from http://www.adobe.com
The papers reflect the authors’ opinion and
are published as presented and without any
change in the interest of timely dissemination. Their inclusion in these publications
does not necessarily constitute endorsement by the editors, the European Physical Society.
© 2015 by the European Physical Society.
All rights reserved.
Copyright and Reprint permissions:
The European Physical Society is assigned
copyright ownership for the papers comprised in the 5th International Topical Meeting on Nanophotonics and Metamaterial
Conference digest to be effective as of the
date published, to the extent transferable
under applicable national law.
Abstracting is permitted with credit to the
source. Libraries are permitted to print
copies beyond the limits of copyright in
the US and in Europe, where applicable,
for private use of patrons those articles
in this volume. Fair use for scholarly purposes is also permitted. For other copying,
reprint or publication permission, write to
European Physical Society, 6 rue des Frères
Lumière, F-68200 Mulhouse, France.
TABLE OF CONTENTS
Sponsors and Partners
02
General Information
03
Poster Sessions
Instructions for Poster Presenters
Speakers’ Information
EPS Prize for Research into the Science
of Light Award Ceremony
Reception
Conference Language
Conference Digest
On-site Facilities
Registration Information
Conference Registration Hours
Conference Management
Conference Location
Austria
Currency
Weather in Seefeld
Seefeld
Technical Programme
Conference Committee
Programme at a Glance
Plenary Talks at a Glance
Breakthrough Talks at a Glance
Invited Talks at a Glance
Monday Sessions
Tuesday Sessions
Wednesday Sessions
Thursday Sessions
Authors’ Index
Authors (or their employers, in the case of
works made for hire) reserve all other rights
to the above indicated publication including: (a) The right to use the work in future
works of their own; (b) All proprietary
rights other than copyright; (c) The right
of the employer to make copies of the work.
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SPONSORS & PARTNERS
Sponsors and partners
Thanks to our Sponsors and Partners:
http://qeod.epsdivisions.org/
http://www.nature.com/lsa
http://www.neaspec.com
http://www.raith.com
http://www.nktphotonics.com/
http://iopscience.iop.org/2040-8986
http://www.acs.org
02
GENERAL INFORMATION
The 5th International Topical Meeting on
Nanophotonics and Metamaterials
5 – 8 January 2015, Seefeld in Tirol, Austria
NANOMETA 2015 aims to bring together
the international Nanotechnology, Photonics
and Materials research communities where
most recent and challenging results and
plans are discussed in the informal setting on
a glorious mountaineering resort. The technical programme will include invited and
selected contributed papers in the areas of:
• Plasmonics, Metamaterials, Nanophotonic Devices
• Metadevices & Metasystems
• Nanophotonics & Nanobiophotonics
• New Materials for Nanophotonics
• Localization of Light & Optical Superresolution
The conference will be organised in two
oral parallel sessions (Nanophotonics and
Metamaterials) and will feature joint plenary sessions. The conference timetable will
be arranged in a way that permits mid-day
breaks for recreational activities and informal contact between participants.
The programme will feature 256 presentations over 4 days including 5 plenary, 5
breakthrough, 42 invited, 53 oral, 2 technology talks and 151 posters from 37 different countries.
Poster Sessions
Nanometa 2015 will present a total of 151
posters split into two poster sessions, which
will take place on Tuesday 6 January 2015 and
Wednesday 7 January 2015 from 17:00 to 18:30.
There will be no oral presentations during
this time. Light snacks and soft drinks will
be provided during the sessions.
wide on which to display a summary of the
paper. Fixing material (tape) will be provided.
The boards will be marked with the poster
session code. Authors are requested to display their poster on their allocated board in
the early afternoon of the day of their presentation. In order to present their work and
answer questions, authors are requested to be
present in the vicinity of their poster on the
day of their presentation during 17:00-18:30.
Speakers’ Information
Speakers are asked to check-in with the session chair in the conference room ten minutes before the session begins.
Presenters may transfer their presentation
files by USB memory stick. It will also be
possible to give the presentations from own
notebooks. A screen switch to connect several notebooks simultaneously to the data
projector will be arranged. Individual notebooks will need to be connected to the box
during the breaks.
The presentation times for oral sessions are
as follows:
Plenary talks: 1-hour presentation including 10 minutes for discussion.
Breakthrough talks: 30 minutes presentation including 10 minutes for discussion.
Invited talks: 30 minutes presentation including 10 minutes for discussion.
Oral talks: 15 minutes presentation including 3 minutes for discussion.
Technology talks: 45 minutes presentation
including 15 minutes for discussion.
The conference rooms are equipped with
microphone, beamer, and computer.
EPS Prize for Research into the
Science of Light Award Ceremony
Instructions for Poster Presenters
The ceremony will announce and recognize
the second recipient of the EPS Quantum
Electronics and Optics Division Prize for
Research into the Science of Light. The Prize
is awarded in recognition of scientific excellence in the area of electromagnetic science
in its broadest sense, across the entire spectrum of electromagnetic waves. The event
will take place on Thursday 8 January 2015,
19:00 - 19:15, Olympia room.
Each author is provided with one bulletin
board measuring 130 cm high and 120 cm
The 2015 Prize for Research into the Science of Light is awarded to Miles Padgett,
Poster Prize: a poster competition sponsored
by Journal of Optics (http://iopscience.
iop.org/2040-8986) will be organised to
award the best poster presented by research
students. The prize will be awarded on the
Closing Ceremony, which will take place on
Thursday evening 8 January 2015.
03
Professor at the Department of Physics and
Astronomy, University of Glasgow, Glasgow,
United Kingdom. The Prize is awarded to
Professor Padgett for “internationally recognised work on optical momentum, including an optical spanner, use of orbital angular
momentum in communication systems and
an angular form of EPR paradox”.
M i l e s Pa d g e tt
holds the Kelvin
Chair of Natural
Philosophy at the
University of Glasgow and is a Royal
Society/Wolfson
Merit Award holder. In 2001, he was
elected to fellowship of the Royal Society of Edinburgh, of
the OSA in 2011, of SPIE in 2012 and in 2014
as a Fellow of the Royal Society - the UK’s
National Academy. In 2008, he won the Institute of Physics Optics and Photonics Prize;
in 2009, the Institute’s Young Medal, and in
2014, the Kelvin Medal of the Royal Society
of Edinburgh.
His group is internationally recognized
for leadership in the field of optics and in
particular of optical momentum. Their
best-known contributions include an optical spanner for spinning micrometre-sized
objects, use of orbital angular momentum
to increase the data capacity of communication systems and an angular form of the
Einstein–Podolsky–Rosen quantum paradox. In addition to opening a new field of
optical research, recognition of orbital angular momentum has led to new directions
in optics, where the spatial control of a light
beam’s optical phase has driven areas as
diverse as optical manipulation, quantum
optics and imaging.
Reception
A beer reception will be organised on Thursday 8 January 2015, 19:45.
Conference Language
The official language of the conference
is English.
Conference Digest
The registration fee includes an on line
technical digest including the onepage summaries.
GENERAL INFORMATIONS
General information
General information
GENERAL INFORMATIONS
On-site Facilities
Wireless Internet is available for both rooms
(Olympia and Seefeld-Tirol) and the lounges.
A message board around the registration
area will be installed.
The nearest bank machine is about 500 m
away from the centre.
Registration Information
The registration fees for the meeting include
admission to all technical sessions of the
conference on “Nanophotonics and Metamaterials”. It includes coffee breaks (Monday
through Thursday) as mentioned on the programme. Lunches are not included.
Conference Registration Hours
Sunday 4
Monday 5
Tuesday 6
Wednesday 7
Thursday 8
16:00-18:00
07:45-12:00 // 16:30-19:00
08:00-11:45 // 16:30-18:30
08:15-11:45 // 16:30-18:30
08:15-11:45
Conference Management
The European Physical Society provides the
Conference management, 6 rue des Frères
Lumière, 68200 Mulhouse, France
Conference Location
NANOMETA 2015 will take place at the
“Olympia” Congress Centre in the heart
of Seefeld:
Olympia Sport and Kongresszentrum
Seefeld – Tirol GmbH
Klosterstrasse 600
6100 Seefeld, Austria
Phone: +43 (0) 5212 32 20
Fax: +43 (0) 5212 32 28
Website: http://www.seefeld-sports.at/
The Olympia room is on the first level and the
Seefeld/Tirol room is on the basement level.
The registration area is on the same level as
the Olympia room.
Austria
Austria is a central European predominately
mountainous country. Eight other countries
line the Austrian border: Italy, Switzerland,
the Principality of Liechtenstein, Germany,
the Czech Republic, Slovakia, Hungary, and
Slovenia. Lying on the Danube River, the
Austrian capital of Vienna is partly surrounded by the hills of the Vienna Woods.
Austria’s population, which has just surpassed eight million, is 93% German speaking, and 20% of the global population resides
in Vienna. Still, the country has a diverse
ethnic mix that includes six officially recognised ethnic groups: Croats, Czechs, Hungarians, Roma/Sinti, Slovaks and Slovenes.
While about 73% of the Austrian population
is Roman Catholic, there are eleven other
officially recognised religions.
Since Austria has a relatively stable economy and generally strong rates of growth,
its citizens enjoy a high standard of living,
comparable to that of the other countries in
Western Europe.
Currency
Euro is the official currency in Austria.
Major credit cards (VISA, MasterCard/Euro
card, American Express, Diners…) are generally accepted in airports, train stations,
hotels, larger shop, etc.
Weather in Seefeld
Framed by the Mountain Range of the Karwendel National Park, Seefeld is situated
on a sunny high-altitude plateau 1.200 m
above sea level and is 150 km from Munich
and Innsbruck is 21 km away. The weather
in January is very pleasant, cold but with
warm winter sunshine. However, as in the
mountains the weather may rapidly vary.
The Seefeld weather forecast can be viewed
at http://www.seefeld.com/en/service/wetter/
Seefeld
Seefeld with its around 3000 inhabitants is
a major ski resort in the heart of the Tyrol
Mountains, Austria, at the centre of untouched nature. It is a multi-faceted resort
that is a magnet for guests from all over the
world and combines nature, sport, wellness
and a holiday atmosphere. The village is a
true paradise for nature-lovers as well as alpine ski enthusiasts.
In Seefeld you can find excellent downhill
and cross-country skiing, ice rink, indoor
swimming pool, fantastic restaurants and a
good choice of quality hotels. The magnificent mountain scenery of the Karwendel
04
Alpine Park and the Wetterstein range surrounds all of Seefeld. There you will find a
wide range of sports, relaxation and health
facilities for everyone.
You can rent or buy your equipment! 25
uphill facilities between 1,200 m and 2,100
m and ski runs for all levels and ambitions
are awaiting you. Besides Alpine skiing you
should also try cross-country skiing on
283,5 km of well-groomed tracks, ideal for
skaters and classic cross country skiing fans.
Or choose from the wide range of winter
hiking trails (approx. 80 km), Alpine curling
(on more than 30 ice curling alleys) or a romantic ride in a horse-drawn sleigh across
glittering winter landscapes. Seefeld holds
numerous ski jumping hills, of which the
biggest is Toni Seelos Olympiaschanze.
Here in the Olympia Region on the Seefeld
plateau, walkers, mountaineers and climbers
have their work cut out choosing their next
adventure from the tightly woven network of
450 kilometres of hiking trails and mountain
paths. Destinations in the region include the
breath-taking countryside of the Wetterstein
range and the Zugspitze, the Karwendel nature park with the well-known Ahornboden
area, the Mieminger chain of peaks with the
mighty Hohe Munde and the nature preserve of the Wildmoos.
Around 143 kilometres of cleared and prepared winter walking trails are available in
the region - a map with descriptions of all
walks and cross-country trails is available in
all information offices.
The Bergbahnen Rosshütte lifts will whisk
you to over 2000 meters altitude in just a
few minutes. In winter, enjoy 19 kilometres
of beautifully prepared ski runs.
Indoor and outdoor pools, sauna, massage,
tanning beds - all that and more is on offer
at Olympia Sport- and Kongresszentrum. On
top of that, it boasts a modern cinema, seminar and conference rooms and, in winter, an
ice-skating rink. A few hotels offer free entrance passes to the indoor swimming pool.
Don’t miss the highpoint of the Seefeld
nightlife - the highest casino in Austria. The
casino, at the start of the pedestrian area, is
known as the most welcoming in the world,
helped by its elegant atmosphere and the
range of games of chance on offer.
Conference Committee
You don’t need a car in the village, though.
In winter the free ski buses will take you to
the different ski areas and there is also a free
shuttle bus around the village. The regional
bus ticket for the plateau only costs 12 Euros.
It gives you the right to use the public buses
on the plateau (Seefeld, Leutasch, Mösern/
Buchen, Reith and Scharnitz) as frequently
as you want during your stay. You can have
the bus pass function added to your guest
card at any of the information offices or at
your accommodation. Beyond that, the bus
fees apply as laid down by the VVT Tyrolean
public transport association. Children under
15 with guest card can use the regional buses
free of charge.
Further tourist information may be obtained
at the Information office:
Olympiaregion Seefeld
Klosterstraße 43
A - 6100 Seefeld, Austria
Tel: +43 (0) 508800
Fax: +43 (0) 50880-51
Email: [email protected]
Website: http://www.seefeld.com
The office also offers a direct on line search
for accommodation.
CONFERENCE COMMITTEE
Conference Chairs:
Nikolay Zheludev, University of Southampton, Southampton, UK and NTU Singapore, Singapore
Harald Giessen, University of Stuttgart,
Stuttgart, Germany
Nikolay Zheludev,
directs the Centre
for Photonic Metamaterials at Southampton University,
UK and Centre for
Disruptive Photonic Technologies at
Nanyang Technological University,
Singapore. He is also deputy director of the
Optoelectronics Research Centre at Southampton and co-Director of the Photonics
institute at NTU, Singapore.
His research interests are in nanophotonics
and metamaterials. His personal awards include Senior Professorships of the Engineering and Physical Sciences Research Council
(UK) and the Leverhulme Trust and the
Royal Society Wolfson Research Fellowship. He was awarded MSc, PhD and DSc from
Moscow State University. Professor Zheludev
is the Editor-in-Chief of the IOP «Journal
of Optics».
Harald Giessen,
graduated from
Kaiserslautern
University with a
diploma in physics and obtained
his M.S. and Ph.D.
in optical sciences
from the University
of Arizona in 1995.
After a postdoc at the Max-Planck-Institute for Solid State Research in Stuttgart he
moved to Marburg as Assistant Professor.
From 2001-2004, he was associate professor at the University of Bonn. Since 2005, he
holds the Chair for Ultrafast Nano-Optics in
the department of physics at the University of Stuttgart. He is a fellow of the Optical
Society of America and holds an ERC Advanced Grant in the area of complex plasmonics. He is on the editorial board of NPG
Light, Science and Applications, as well as
on the editorial advisory boards of Nanophotonics, Advanced Optical Materials, and
ACS Photonics.
05
Programme Committee Members:
Javier de Abajo, ICFO-The Institute of Photonic Sciences, Castelldefels (Barcelona), Spain
Hatice Altug, EPFL, Lausanne, Switzerland
Steven Anlage, Maryland University, College
Park, USA
Alexandra Boltasseva, Purdue University,
Wast Lafayette, USA
Federico Capasso, Harvard School of Engineering and Applied Sciences, Cambridge,
USA
Che Ting Chan, The Hong Kong University
of Science & Technology, Hong Kong
Hongsheng Chen, Zhejiang University, Zhejiang, China
John Dudley, Université de Franche-Comté,
Besançon, France (EPS President)
Joerg Heber, Nature Communications, London, United Kingdom
Rainer Hillenbrand, CIC nanoGUNE, San
Sebastian, Spain
Uriel Levy, Hebrew University, Jerusalem,
Israel
Boris Luk’yanchuk, A*STAR, Singapore,
Singapore
Olivier Martin, EPFL, Lausanne, Switzerland
Bumki Min, KAIST, Daejeon, Republic of
Korea
Masaya Notomi, NTT, Atsugi, Japan
Lukas Novotny, ETH Zürich, Zürich,
Switzerland
Ian Osborne, Science Magazine, Cambridge,
United Kingdom
John Pendry, Imperial College London, London, United Kingdom
Albert Polman, Center for Nanophotonics,
FOM Institute AMOLF, Amsterdam, The
Netherlands
Gennady Shvets, University of Texas, Austin,
USA
Antoinette Taylor, Los Alamos National
Laboratory, Los Alamos, USA
Lei Zhou, Fudan University, Shangai, China
Rachel Won, Nature Photonics, London,
United Kingdom
NOTES
TECHNICAL PROGRAMME
Olympiaregion Seefeld Card (ORS
Card): Guests staying in the Olympiaregion Seefeld usually benefit from local
advantages and price reductions - See all
details at http://www.seefeld.com/pdf/
ors-card/ors_en_screen.pdf). Among the
advantages, you will, for example, benefit
from a free Seefeld shuttle and ski bus;
obtain a 10% discount on the admission
to the Seefeld Olympia Sport- & Kongresszentrum swimming pool for 4 hours,
or on an all-day ticket according to the
current price list. Valid Monday to Friday
(excluding weekends, national holidays);
take advantage of the following reduced
fees for the use of the cross-country ski
tracks: 1-day ticket € 3.00; 3-or-more-day
ticket € 9.00. The tickets - both
1-day and multi-day - can be purchased
from the majority of accommodation providers as well as in all the region’s tourist information offices. The € 3.00 one-day ticket
for the cross-country ski tracks can, however,
be purchased directly from the track ticket
inspector. Children under 15 can use the
cross-country ski tracks free of charge.
Don’t forget to ask about your Seefeld guest
card at your accommodation provider!
Programme at a Glance
PROGRAMME AT A GLANCE
Monday 5 January 2015
TECHNICAL PROGRAMME
Olympia Room
Seefeld/Tirol Room
08:35-09:45
Oral session MON1o
Opening Session and Plenary Talk 1
09:45-10:00
Coffee Break (1st floor)
09:45-10:00
Coffee Break (1st floor)
10:00-12:30
Oral session MON2o
Attoseconds & Electrons
10:00-12:00
Oral session MON2s
Metasurfaces
12:30-17:00
Lunch Break
12:00-17:00
Lunch Break
17:00-18:45
Oral session MON3o
New Materials
17:00-18:45
Oral session MON3s
Chiral and Toroidal Metamaterials
18:45-19:00
Coffee Break (1st floor)
18:45-19:00
Coffee Break (1st floor)
19:00-20:00
Oral session MON4o: Breakthrough Talk I
19:00-20:00
Oral session MON4s: Breakthrough Talk II
Tuesday 6 January 2015
Olympia Room
Seefeld/Tirol Room
08:30-09:30
Oral session TUE1o
Plenary Talk 2
09:30-09:45
Coffee Break (1st floor)
09:30-09:45
Coffee Break (1st floor)
09:45-12:00
Oral session TUE2o
Ultrafast & Nonlinear
09:45-12:15
Oral session TUE2s
Nanophotonics
12:00-16:15
Lunch Break
12:15-16:15
Lunch Break
16:15-17:00
Oral session TUE3o
Technology Talk by Neaspec
Foyer
17:00-18:30
Foyer
Poster Session I TUE4f
With snacks and drinks
17:00-18:30
Olympia Room
18:30-19:30
Oral session TUE5o
Topological Insulators
19:30-19:40
Break
19:40-20:40
Oral session TUE6o
Plenary Talk 3
Poster Session I TUE4f
With snacks and drinks
Seefeld/Tirol Room
18:30-19:30
06
Oral session TUE5s
Sensing I
Programme at a Glance
Wednesday 7 January 2015
Seefeld/Tirol Room
08:30-09:30
Oral session WED1o Plenary Talk 4
09:30-09:45
Coffee Break (1st floor)
09:30-09:45
Coffee Break (1st floor)
09:45-11:15
Oral session WED2o
Graphene and 2D Materials I
09:45-11:15
Oral session WED2s
Nanomechanics & Forces
11:15-11:30
Break
11:15-11:30
Break
11:30-13:00
Oral session WED3o
Graphene and 2D Materials II
11:30-13:00
Oral session WED3s
Tunable and Nanosystems
13:00-16:15
Lunch Break
13:00-16:15
Lunch Break
16:15-17:00
Oral session WED4o
Technology Talk by Raith
Foyer
17:00-18:30
Foyer
Poster Session II – WED5f
With snacks and drinks
17:00-18:30
Olympia Room
18:30-20:30
Poster Session II – WED5f
With snacks and drinks
Seefeld/Tirol Room
Oral session WED6o Quantum and Applications
18:30-20:30
Oral session WED6s Transformation Optic
Thursday 8 January 2015
Olympia Room
Seefeld/Tirol Room
08:30-09:30
Oral session THU1o Plenary Talk 5
09:30-09:45
Coffee Break (1st floor)
09:30-09:45
Coffee Break (1st floor)
09:45-10:15
Oral session THU2o Sensing II
09:45-10:15
Oral session THU2s Quantum Nanosystems I
10:15-10:30
Break
10:15-10:30
Break
10:30-11:30
Oral session THU3o Sensing III
10:30-11:30
Oral session THU3s Quantum Nanosystems II
11:30-13:00
Oral session THU4o Applications I
11:30-13:00
Oral session THU4s Quantum Nanosystems III
17:30-17:45
Short Coffee Break
17:30-17:45
Short Coffee Break
13:00-16:00
Lunch Break
13:00-16:00
Lunch Break
16:00-17:30
Oral session THU5o Applications II
16:00-17:15
Oral session THU5s Novel Phenomena
17:30-17:45
Short Coffee Break
17:30-17:45
Short Coffee Break
18:45-18:30
Break
18:45-18:30
Break
18:30-19:00
Oral session THU6o Breakthrough Talk III
18:30-19:00
Oral session THU6s Breakthrough Talk IV
19:00-19:15
THU7o 2015 EPS-QEOD Prize for Research
into the Science of Light
19:15-19:45
THU8o
Student Prize Award and Closing Remarks
Foyer
19:45-20:30
Foyer
Beer reception
19:45-20:30
07
Beer reception
TECHNICAL PROGRAMME
Olympia Room
Plenary Talks at a Glance
from 1996 to 2005 he was professor in the Department of Physics
at the University of Bath. His research interests currently focus on
scientific applications of photonic crystal fibres and related structures. He is a Fellow of the Royal Society and the Optical Society of
America (OSA) and has won several international awards for his
research including the 2000 OSA Joseph Fraunhofer Award/Robert
M. Burley Prize, the 2005 Thomas Young Prize of the Institute for
Physics (UK), the 2005 Körber Prize for European Science, the 2013
EPS Prize for Research into the Science of Light, the 2014 Berthold
Leibinger Zukunftspreis and the 2015 IEEE Photonics Award. He is
currently OSA's 2014 President-Elect and will become its President
in 2015, the UNESCO International Year of Light.
PLENARY TALKS AT A GLANCE
Monday 5 January 2015
MON1o: Plenary Talk 1
Olympia Room 08:45-09:45
Nano-photonic Phenomena in Atomically Thin van der
Waals Crystals
Dmitri N. Basov, University of California in San Diego, La Jolla, CA,
United States
TECHNICAL PROGRAMME
We investigated surface plasmons in graphene and phonon polaritons in a natural hyperbolic material hexagonal boron nitride (hBN)
using infrared nano-imaging. Peculiar properties of phonon polaritons in hBN enabled sub-diffractional focusing and image formation.
TUE6o: Plenary Talk 3
Olympia Room
Dmitri N. Basov obtained his PhD from
the Russian Academy of Sciences in 1991.
He was Postdoctoral Researcher at the McMaster University, Ontario, Canada until
1996. Between 1997-2000 he became Assistant, Associate Professor at the University of California San Diego (UCSD). Since
2001 he is Professor and since 2010 he is
Chair of Physics at the University of California San Diego. His research interests are:
new physics of new materials, correlated electron materials and unconventional superconductivity, novel optical techniques. Prizes and
awards: Sloan Fellowship (1999), Genzel Prize (2004), Humboldt
Research Award (2009), Frank Isakson Prize, American Physical
Society (2012), Moore Investigator (2014).
Hybrid Nanophotonics: Coupling Light to Other Degrees of
Freedom at the Nanoscale
Albert Polman, AMOLF, Amsterdam, The Netherlands
Hybrid nanophotonics is a new research field in which light is coupled to other degrees of freedom such as nanoscale mechanical
motion, acoustic phonons, electron spins, excitons, and molecular
vibrations, and offers great new science and applications.
Albert Polman is scientific group leader at
the FOM Institute AMOLF in Amsterdam,
the Netherlands, where he heads the Program
“Light management in new photovoltaic materials”. He is professor of Photonic materials
for photovoltaics at the University of Amsterdam. Polman obtained his Ph.D. from the
University of Utrecht in 1989, was post-doctoral researcher at AT&T Bell Laboratories
until 1991 and then became group leader at
AMOLF, where he also served as director from 2006-2013. In 2003 he
spent a sabbatical year at Caltech. Polman's research focuses on nanophotonics, with special emphasis on light management in solar cells and
optical metamaterials. Polman is a co-founder of Delmic BV, a startup
company that commercializes the angle-resolved cathodoluminescence
imaging spectroscopy (ARCIS) technique developed by Polman and his
group. Polman is member of the Royal Netherlands Academy of Arts
and Sciences (KNAW), Fellow of the Materials Research Society (MRS),
and recipient of an ERC Advanced Investigator Grant (2010), the ENI
Renewable Energy Prize (2012), the Physica Prize of the Dutch Physical
Society (2014) and the Julius Springer Award for Applied Physics (2014).
Tuesday 6 January 2015
TUE1o: Plenary Talk 2
19:40-20:40
Olympia Room 08:30-09:30
Enhancing Light-matter Interactions Using Microstructured
Glass Fibres
Philip Russell, Max Planck Institute for the Science of Light,
Erlangen, Germany
Twisted PCF supports novel helical Bloch modes, dual nanoweb fibres offer giant optomechanical gain and acoustic resonances trapped
in micron-scale glass cores can be used to stably mode-lock soliton
fibre lasers at gigahertz rates.
Professor Philip Russell is a Director at
the Max-Planck Institute for the Science of
Light (MPL), a position he has held since
January 2009 when MPL was founded. He
obtained his D.Phil. (1979) degree at the
University of Oxford, spending three years
as a Research Fellow at Oriel College, Oxford. In 1982 and 1983 he was a Humboldt
Fellow at the Technical University Hamburg-Harburg (Germany), and from 1984
to 1986 he worked at the University of Nice (France) and the IBM TJ
Watson Research Center in Yorktown Heights, New York. From 1986
to 1996 he was based mainly at the University of Southampton, and
Wednesday 7 January 2015
WED1o: Plenary Talk 4
Olympia Room 08:30-09:30
Nonlinearity, Nonreciprocity, Time-Modulation and Gain: New
Venues for Metamaterials and Plasmonics
Andrea Alù, The University of Texas at Austin, Austin, United States
We discuss how new concepts, such as electronic transitions, gain
and time-varying media, combined with the strong wave-matter
interactions in metamaterials and plasmonics, may provide new
directions for metamaterial technology and nanophotonic systems.
08
Breakthrough Talks at a Glance
Thursday 8 January 2015
Andrea Alù is an Associate Professor and
the David & Doris Lybarger Endowed Faculty Fellow in Engineering at the University
of Texas at Austin. He received his PhD
from the University of Roma Tre, Italy, in
2007 and, after a postdoc at the University
of Pennsylvania, he joined the faculty of the
University of Texas at Austin in 2009. His
current research interests span over a broad
range of areas, including metamaterials and
plasmonics, electromagnetics, optics, photonics and acoustics. He
is the co-author of an edited book on optical antennas, 22 book
chapters, over 400 conference papers, and over 250 journal papers.
Dr. Alù is a Fellow of IEEE and OSA, and has received several scientific awards, including the OSA Adolph Lomb Medal (2013), the
IEEE MTT-S Outstanding Young Engineer award (2014), the IUPAP Young Scientist Prize in Optics (2014), the Franco Strazzabosco Award for Engineers (2013), the SPIE Early Career Investigator
Award (2012), the URSI Issac Koga Gold Medal (2011), an NSF
CAREER award (2010), the AFOSR and the DTRA Young Investigator Awards (2010, 2011).
He serves on the Editorial Board of Physical Review B, Advanced Materials, and Scientific Reports, is an Associate Editor of five journals,
including the IEEE Antennas and Wireless Propagation Letters and
Optics Express, and has been elected an APS Outstanding Referee
since 2014. He has been serving as OSA Traveling Lecturer (since
2010), as IEEE AP-S Distinguished Lecturer (since 2014), and as
the IEEE joint AP-S and MTT-S chapter chair for Central Texas
(since 2011).
THU1o: Plenary Talk 5
Olympia Room 08:30-09:30
Strong-field Interactions of Electrons with Nano-confined Light:
Classical and Quantum Features
Claus Ropers, 4th Physical Institute, University of Göttingen, Göttingen, Germany
Claus Ropers studied physics at the University of Göttingen and
the University of California at Berkeley.
Conducting his doctoral studies at the Max
Born Institute (Berlin), he received a PhD
from the Humboldt University in Berlin in
2007. At the University of Göttingen, he was
appointed Assistant Professor at the Courant
Research Centre “Nano-Spectroscopy and
X-Ray Imaging” (2008), Associate Professor
at the Institute of Materials Physics (2011),
and Full Professor for Experimental Solid
State Physics at the 4th Physical Institute (2013). His research focuses
on ultrafast processes in solids, nanostructures and at surfaces. To this
end, his group develops novel experimental tools for the study of ultrafast structural and electronic dynamics, including ultrafast electron
microscopy and diffraction. For his scientific achievements, he was
awarded the Carl-Ramsauer Prize, Nanoscience Prize (awarded by
AGeNT-D) and Walter-Schottky Prize by the German Physical Society.
BREAKTHROUGH TALKS AT A GLANCE
Monday 5 January 2015
Olympia Room
Seefeld/Tirol Room
19:00-20:00 Session MON4o - Breakthrough Talk I
19:00-20:00 Session THU4s - Breakthrough Talk II
19:00-19:30
MON4o-K-01
Photonic Topological Insulators
Mordechai (Moti) Segev, Physics Department, Technion, Israel, Haifa, Israel
19:00-19:30
MON4s-K-01
3D Invisibility Cloaking in Ballistic and
Diffusive Propagation of Light
Martin Wegener, Karlsruhe Institute of Technology (KIT) Institute of Applied Physics Institute of Nanotechnology, Karlsruhe, Germany
19:30-20:00
MON4s-K-02
Active 3D Plasmonics
Na Liu,
Max Planck Institute for Intelligent Systems,
Stuttgart, Germany
Thursday 8 January 2015
Olympia Room
Seefeld/Tirol Room
18:30-19:00 Session THU6o - Breakthrough Talk III
18:30-19:00 Session THU6s - Breakthrough Talk IV
18:30-19:00
THU6o-K-01
Quantum Nanophotonics
Mikhail Lukin,
Harvard University, Cambridge, United States
18:30-19:00
THU6s-K-01
09
Quantum Integrated Plasmonics
Harry Atwater, T. J. Watson Laboratories of
Applied Physics, California Institute of Technology, Pasadena, United States
TECHNICAL PROGRAMME
Several examples of field-driven interactions with electrons at optical
nanostructures will be discussed, together with experimental means of
control.Photoemission spectroscopy and electron-light scattering yield insight into classical and quantum mechanical aspects of these phenomena.
Invited Talks at a Glance
INVITED TALKS AT A GLANCE
Monday 5 January 2015
Olympia Room
Seefeld Room
10:00-12:30 Session MON2o - Attoseconds & Electrons
10:00-12:00 Session MON2s - Metasurfaces
How to Design Any Linear Optical Component and How to Avoid It
David Miller, Stanford University, Stanford,
United States
TECHNICAL PROGRAMME
10:00-10:30
MON2o-I-01
11:30-12:00
MON2o-I-06
Condensed Matter in Ultrafast and Superstrong Fields: Attosecond Phenomena
Mark Stockman, Center for Nano-Optics,
Georgia State University, Atlanta, United
States
12:00-12:30
MON2o-I-07
Bulk and Surface Correspondence through
Geometric Phases in Classical Wave Systems
Che Ting Chan, Meng Xiao, The Hong Kong
University of Science and Technology, Hong
Kong, China
10
10:00-10:30
MON2s-I-01
Polarization Control and Wavefront Engineering of Surface Plasmon Polaritons with
Metasurfaces
Federico Capasso1, Antonio Ambrosio1,2,
Patrice Genevet1, Daniel Wintz1
1
Harvard University, Cambridge, United States
2
CNR-SPIN, Napoli, Italy
10:30-11:00
MON2s-I-02
Recent Progresses on Meta-surfaces
Lei Zhou, Physics Department, Fudan
University, Shanghai, China
11:00-11:30
MON2s-I-03
Novel Photonic Functionality with Few-layer Metamaterials
Antoinette Taylor1, Houtong Chen1, Nathaniel
Grady1, Jane Heyes1, Abul Azad1, Dibakar
Chowdhury1, Li Huang2
1
Center for Integrated Nanaotechnologies, Los
Alamos National Laboratory, Los Alamos,
United States
2
Physics Department, Harbin Institute of Technology, Harbin, China
11:30-12:00
MON2s-I-04
Metasurface for simultaneous control of
phase and amplitude
Shuang Zhang1, Lixiang Liu1,2, Xueqian
Zhang1,3, Mitchell Kenney1, Xiaoqiang Su3,
Ningning Xu4, Chunmei Ouyang3, Yunlong
Shi2, Jiaguang Han3, Weili Zhang4
1
University of Birmingham School of Physics
& Astronomy, Birmingham, United Kingdom
2
Institute of Solid State Physics, Shanxi Datong University, Datong, China
3
Center for Terahertz Waves and College of
Precision Instrument and Optoelectronics
Engineering, Tianjin University, Tianjin,
China
4
School of Electrical and Computer Engineering, Oklahoma State University, Oklahoma, United States
Invited Talks at a Glance
Olympia Room
Seefeld Room
17:00-18:45 Session MON3o - New Materials
17:00-18:45 Session MON3s - Chiral and Toroidal Metamaterials
17:00-17:30
MON3o-I-01
17:00-17:30
MON3s-I-01
Polarization Control of Light by Materials
and Metamaterials with Threefold Rotational Symmetry
Makoto Kuwata-Gonokami 1 , Takuya
Higuchi2
1
Department of Physics, The University of
Tokyo, Tokyo, Japan
2
Friedrich-Alexander-University, Erlangen-Nürnberg, Germany
17:30-18:00
MON3s-I-02
Nondispersive optical activity of meshed
helical metamaterials
Bumki Min, Hyun Sung Park, Teun-Teun
Kim, Hyeon-Don Kim, Kyungjin Kim,
Korea Advanced Institute of Science and Technology (KAIST), Daejeon, Korea, Republic of
(South)
18:15-18:45
MON3s-I-04
3D SRR, Toroidal Metamaterials and
Metahologram
Din Ping Tsai1,2, Pin Chieh Wu1, Yao-Wei
Huang1, Wei-Lun Hsu1, Mu-Ku Chen1, Chun
Yen Liao1, Wei-Yi Tsai1, Hao Tsun Lin1, YiTeng Huang1, Jie Chen1, Yi-Hao Chen1, Hui
Jun Wu1, Hao Xu1
1
Department of Physics, National Taiwan University, Taipei, Taiwan
2
Research Center for Applied Sciences, Academia Sinica, Taipei, Taiwan
All-optical magnetization switching on a
nanoscale
Martin Aeschlimann, Department of Physics
and Research Center OPTIMAS, University
of Kaiserslautern, Kaiserslautern, Germany
17:45-18:15
MON3o-I-03
Dynamic Properties of Highly Doped Zinc
Oxide
Nathaniel Kinsey, Clayton DeVault, Jongbum
Kim, Ikuko Kitamura, Marcello Ferrera,
Urcan Guler, Ludmilla Prokopeva, Alexander
Kildishev, Vladimir Shalaev, Alexandra
Boltasseva,
Electrical and Computer Engineering, Birck
Nanotechnology Center, Purdue University,
West Lafayette, United States
18:15-18:45
MON3o-I-04
Optically Resonant Dielectric Nanostructures: A New Paradigm for Nanophotonics
Arseniy Kuznetsov, Boris Luk’yanchuk
Data Storage Institute, A*STAR (Agency for
Science, Technology and Research), 5 Engineering Drive 1, Singapore 117608, Singapore
19:00-20:00 Session MON4o - Breakthrough Talk I
19:30-20:00
MON4o-I-02
Active Nanophotonics: Nonlinear Metamaterials and Nanoemitters
Yeshaiahu Fainman, UCSD, La Jolla, United
States
11
TECHNICAL PROGRAMME
Monday 5 January 2015
Invited Talks at a Glance
Tuesday 6 January 2015
Olympia Room
Seefeld Room
09:45-12:00 Session TUE2o - Ultrafast & Nonlinear
09:45-12:15 Session THU2o - Nanophotonics
Broadband Terahertz Generation from
Metamaterials
Costas M Soukoulis, Ames Lab/Iowa
State University, Ames, United States
IESL-FORTH, Heraklion, Greece
10:15-10:45
TUE2o-I-02
Inherent Third-Order Nonlinearities in
Refractory Metallic TiN Thin Films
Nathaniel Kinsey1, Devon Courtwright2,
Clayton DeVault1, Vladimir Gavrilenko2, Carl
Bonner2, Alexander Kildishev1, Alexandra
Boltasseva1, Vladimir Shalaev1
1 Electrical & Computer Engineering,
Birck Nanotechnology Center, Purdue University, West Lafayette, IN, United States
2 Center for Materials Science, Norfolk State
University, Norfolk, VA, United States
TECHNICAL PROGRAMME
09:45-10:15
TUE2o-I-01
11:00-11:30
TUE2o-I-04
Metal Nanoantennas: Nonlinear Response
and Coupling to Nanoemitters
Rudolf Bratschitsch, Institute of Physics, University of Münster, Münster, Germany
11:30-12:00
TUE2o-I-05
Metasurfaces and Epsilon-Near-Zero
Modes in Semiconductors
Igal Brener, Center for Integrated Nanotechnologies and Sandia National Laboratories,
Albuquerque, New Mexico, United States
12
09:45-10:15
TUE2s-I-01
Jaynes-Cummings nonlinearity of a quantum dot coupled to a plasmonic resonator
Bert Hecht, Heiko Gross
Nano-Optics & Biophotonics group Institute
of Physics University of Würzburg, Würzburg,
Germany
10:30-11:00
TUE2s-I-03
Nanowire Quantum Dots for Quantum
Optics
Val Zwiller, Delft University of Technology,
Delft, The Netherlands
11:45-12:15
TUE2s-I-07
Control of physical phenomena with
non-local dielectric environments
Thejaswi Tumkur1, Vanessa Peters1, John
Kitur 1, Yuri Barnakov 2, Carl Bonner 1,
Alexander Poddubny3, 4, Evgenii Narimanov5,
Mikhail Noginov1
1 Center for Materials Research, Norfolk State
University, Norfolk, United States
2 Azimuth Corporation, Dayton, United States
3 ITMO University, St. Petersburg, Russia
4 Ioffe Physical-Technical Institute, St. Petersburg, Russia
5 Birck Nanotechnology Center, Department of
Electrical and Computer Engineering, Purdue University, West Lafayette, United States
Invited Talks at a Glance
Olympia Room
Seefeld Room
18:30-19:30 Session TUE5o - Topological Insulators
18:30-19:30 Session TUE5s - Sensing I
18:30-19:00
TUE5o-I-01
Photonic network analogs of topological
insulators
Yidong Chong1, Wenchao Hu1, Kan Wu2,
Michael Pasek1, Perry Shum1
1 Centre for Disruptive Photonic Technologies
and School of Physical and Mathematical
Sciences, Nanyang Technological University,
Singapore, Singapore
2 State Key Laboratory of Advanced Optical
Communication Systems and Networks, Department of Electronic Engineering, Shanghai Jiao Tong University, Shanghai, China
18:30-19:00
TUE5s-I-01
2D Plasmonic Metamaterials and Particle
Layers for Sensing and Spectroscopy
Mikael Käll, Mikael Svedendahl, Robin Ogier,
Martin Wersäll, Si Chen, Nils Odenho Länk,
Yurui Fang, Ruggero Verre, Aron Hakonen,
Zhong-Jian Yang, Tomasz J. Antosiewicz, Peter
Johansson, Timur Shegai
Chalmers University, Göteborg, Sweden
19:00-19:30
TUE5s-I-02
Scaling rules for Surface Enhanced Raman
Scattering
Yoshiaki Nishijima1, Yoshikazu Hashimoto1,
Jacob Khurgin2, Hideki Fujiwara3, Lorenzo
Rosa4, Saulius Juodkazis4
1 Yokohama University, Yokohama, Japan
2 Johns Hopkins, Baltimore, United States
3 Hokkaido University, Sapporo, Japan
4 Swinburne University of Technology, Hawthorn, Australia
Wednesday 7 January 2015
Olympia Room
09:45-11:15 Session WED2o - Graphene and 2D Materials I
09:45-10:15
WED2o-I-01
Two-Dimensional Optics with Graphene Plasmons Launched by Metal Antennas
Rainer Hillenbrand2, 5, P. Alonso - González1, A.Y. Nikitin1, F. Golmar1, S. Vélez1, J. Chen1, F. Casanova2, L.E. Hueso2,
A. Centeno3, A. Pesquera3, A. Zurutuza3, G. Navickaite4, F. Koppens4
1 CIC nanoGUNE and UPV/EHU, San Sebastian, Spain
2 IKERBASQUE, Basque Foundation for Science, Bilbao, Spain
3 Graphenea SA, Donostia - San Sebastián, Spain
4 ICFO-Institut de Ciéncies Fotoniques, Castelldefels, Barcelona,, Spain
5 CIC nanoGUNE and UPV/EHU, Donostia - San Sebastián, Spain
10:45-11:15
WED2o-I-04
Highly confined low-loss plasmons in graphene-boron nitride heterostructures
Achim Woessner1, Mark B. Lundeberg1, Yuanda Gao2, Alessandro Principi3, Pablo Alonso-González4, Matteo Carrega5,6,
Kenji Watanabe7, Takashi Taniguchi7, Giovanni Vignale3, Marco Polini5, James Hone2, Rainer Hillenbrand4,8, Frank
H.L. Koppens1
1 ICFO – The Insititute of Photonic Sciences, Castelldefels (Barcelona), Spain
2 Department of Mechanical Engineering, Columbia University, New York, NY, United States
3 Department of Physics and Astronomy, University of Missouri, Columbia, MO, United States
4 CIC nanoGUNE Consolider, Donostia-San Sebastián, Spain
5 NEST, Istituto Nanoscienze - CNR and Scuola Normale Superiore, Pisa, Italy
6 SPIN-CNR, Genova, Italy
7 National Institute for Materials Science, Tsukuba, Japan
8 Ikerbasque, Basque Foundation for Science, Bilbao, Spain
13
TECHNICAL PROGRAMME
Tuesday 6 January 2015
Invited Talks at a Glance
TECHNICAL PROGRAMME
Wednesday 7 January 2015
Olympia Room
Seefeld Room
11:30-13:00 Session WED3o - Graphene and 2D Materials II
11:30-13:00 Session WED3s - Tunable and Nanosystems
11:30-12:00
WED3o-I-01
Folding of two dimensional materials : structural symmetry and interlayer coupling
Shiwei Wu, Fudan University, Shanghai, China
12:15-12:30
WED3o-I-03
Extreme Plasmonics in Atomic-Scale
Structures
Javier Garcia de Abajo, ICFO-The Institute
of Photonic Sciences, Castelldefels, Spain
ICREA-Institucio Catalana de Reserca i Estudis Avançats, Barcelona, Spain
11:30-12:00
WED3s-I-01
18:30-20:30 Session WED6o - Quantum and Applications
18:30-19:00
WED6o-I-01
20:00-20:30
WED6o-I-06
Tunable Molecular Plasmons
Alejandro Manjavacas, Rice University,
Houston, United States
18:30-20:30 Session WED6s - Transformation Optic
Coherence and Transparency in rf SQUID
Metamaterials
Steven M. Anlage, Melissa Trepanier,
Daimeng Zhang
University of Maryland, College Park, United
States
18:30-19:00
WED6s-I-01
Controlling Light in Transformation Optical Waveguides
Hui Liu1, Chong Sheng1, Shining Zhu1,
Dentcho Genov2
1 National Laboratory of Solid State Microstructures & Department of Physics, Nanjing, China
2 College of Engineering and Science, Louisiana
Tech University, Ruston, United States
19:15-19:45
WED6s-I-03
Broadband Perfect Metamaterial Cloak Designed with Transformation Optics
Runren Zhang, Hongsheng Chen
Zhejiang University, Hangzhou, Zhejiang,
China
Ultralow-power photonic processing by
integrated nanophotonics
Masaya Notomi, NTT Nanophotonics Center
& NTT Basic Research Laboratories, Atsugi,
Japan
Thursday 8 January 2015
Olympia Room
Seefeld Room
09:45-10:15 Session THU2o - Sensing II
09:45-10:15 Session THU2s - Quantum Nanosystems I
09:45-10:15
THU2o-I-01
Efficient Coupling of Photons and Quantum Emitters
Vahid Sandoghdar, Max Planck Institute
for the Science of Light, Erlangen, Germany
Friedrich Alexander University ErlangenNuremberg, Erlangen, Germany
09:45-10:15
THU2s-I-01
14
Tunable Nanoparticle Lasing Spasers
Teri Odom, Northwestern University, Evanston,
United States
Invited Talks at a Glance
Thursday 8 January 2015
Olympia Room
Seefeld Room
10:30-11:30 Session THU3o - Sensing III
10:30-11:30 Session THU3s - Quantum Nanosystems II
11:00-11:30
THU3o-I-03
Plasmonics for Hand-Held Diagnostics and
Biotechnology
Hatice Altug1, Arif Cetin1, Ahmet Coskun2,
Betty Galarreta3, David Herman2, Aydogan
Ozcan2
1 Ecole Polytechnique Fédérale de Lausanne
(EPFL), Lausanne, Switzerland
2 UCLA, Los Angeles, United States
3 Boston University, Boston, United States
11:30-13:00 Session THU4o - Applications I
11:30-12:00
THU4o-I-01
11:30-13:00 Session THU4s - Quantum Nanosystems III
Controlling Radiation Scattering and Emission with Gap Plasmon Resonators
Sergey Bozhevolnyi, University of Southern
Denmark, Odense M, Denmark
16:00-17:30 Session THU5o - Applications II
16:00-16:30
THU5o-I-01
Active Plasmonic Devices
Uriel Levy, The Hebrew University of Jerusalem, The Harvey M. Kreuger Family Center for
Nanoscience and Nanotechnology, Jerusalem,
Israel
11:45-12:15
THU4s-I-02
Quantum or Semiclassical Plasmonics?
Martijn Wubs, DTU Fotonik, Technical University of Denmark, Kgs. Lyngby, Denmark
Center for Nanostructured Graphene, Technical University of Denmark, Kgs. Lyngby,
Denmark
12:15-12:45
THU4s-I-03
Controlling Subnanometric Plasmonics
Javier Aizpurua, Center for Materials Physics CSIC-UPV/EHU and DIPC, Donostia-San
Sebastián, Spain
16:00-17:15 Session THU5s - Novel Phenomena
Harnessing disorder at the nanoscale: from
a liquid black-body for light to complexity-driven energy harvesters
Andrea Fratalocchi, KAUST University,
Thuwal, Saudi Arabia
16:00-16:30
THU5s-I-01
15
Classical and Quantum Features of Static
Optics
Ahmed Mahmoud, Nader Engheta
University of Pennsylvania, Philadelphia,
United States
TECHNICAL PROGRAMME
10:45-11:15
THU3s-I-02
Monday Sessions
MONDAY, 5 JANUARY 2015
OLYMPIA ROOM  08:35  08:45
Opening Remarks: Nikolay Zheludev and Harald Giessen
OLYMPIA ROOM  08:45  09:45
Plenary Session - MON1o - Plenary Talk 1
MON1o-PL-01
PLENARY
08:45
Nano-photonic phenomena in atomically thin van der
Waals crystals
Dmitri N Basov
University of California in San Diego, San Diego, United States
We investigated surface plasmons in graphene and phonon polaritons in a natural hyperbolic material hexagonal boron nitride (hBN)
using infrared nano-imaging. Peculiar properties of phonon polaritons in hBN enabled sub-diffractional focusing and image formation.
MONDAY SESSIONS
FOYER  COFFEE BREAK  09:45  10:00
OLYMPIA ROOM  10:00  12:30
SEEFELD/TIROL ROOM  10:00  12:00
Oral Session - MON2o - Attoseconds & Electrons
Oral Session - MON2s - Metasurfaces
Chair:
Chair: Uriel Levy, The Hebrew University of Jerusalem, Jerusalem, Israel
MON2o-I-01
INVITED
10:00
MON2s-I-01
How to Design Any Linear Optical Component and How to Avoid It
INVITED
10:00
David Miller
Polarization Control and Wavefront Engineering of Surface Plasmon
Polaritons with Metasurfaces
Stanford University, Stanford, United States
Federico Capasso1, Antonio Ambrosio1,2, Patrice Genevet1, Daniel Wintz1
We show how to perform any linear optical function on a coherent
light beam, proving arbitrary functions are possible, beyond previous
capabilities. Using simple feedback loops, no calculations are needed
in this progressive method.
MON2o-O-02
ORAL
1
Harvard University, Cambridge, United States
2
CNR-SPIN, Napoli, Italy
We demonstrate that a linear arrangement of rotated nano-apertures
etched in a metallic film can control the phase velocity of a running
wave of polarization.
10:30
MON2s-I-02
INVITED
Attosecond Near-Field Streaking from Au Nanotips
Recent Progresses on Meta-surfaces
Matthias Kling1, Benjamin Förg1, Johannes Schötz1, Frederik Süßmann1,
Lei Zhou
Karen Wintersperger1, Ferenc Krausz1, Byungnam Ahn2, Dongeon Kim2,
Physics Department, Fudan University, Shanghai, China
We briefly summarize our recent efforts in employing meta-surfaces
to control electromagnetic waves, including realizing high-efficiency
photonic spin-hall effect and surface-plasmon couplers, and controlling phases with graphene-based meta-surfaces.
Mark I. Stockman , Michael Förster , Michael Krüger , Peter Hommelhoff
3
1
4
4
4
Laboratory for Attosecond Physics, Max-Planck-Institut für Qauntenoptik
and Ludwig-Maximilians-Universität München, Garching, Germany
2
Physics Department, CASTECH, POSTECH and Max Planck Center for
Attosecond Science, Pohang, Korea, Republic of (South)
3
Center for Nano-Optics and Department of Physics and Astronomy, Georgia
State University, Atlanta, United States
4
10:30
Department of Physics, Friedrich-Alexander-Universität Erlangen-Nürnberg,
Erlangen, Germany
We demonstrate that attosecond streaking spectroscopy can be
applied to measure the waveform of the near-field of Au nanotips
that results from their excitation with a few-cycle near-infrared laser pulse.
16
Monday Sessions
MON2o-O-03
ORAL
10:45
Field-resolved multi-THz nano-spectroscopy with sub-cycle temporal resolution
Max Eisele1, Tyler Cocker1, Markus Huber1, Markus Plankl1, Leonardo Viti2,
Daniele Ercolani2, Lucia Sorba2, Miriam Vitiello2, Rupert Huber1
1
Department of Physics, University of Regensburg, 93040 Regensburg,
Germany, Regensburg, Germany
2
NEST, CNR – Istituto Nanoscienze and Scuola Normale Superiore, 56127 Pisa,
Italy, Pisa, Italy
We demonstrate a novel microscope combining ultrafast, pumpprobe terahertz spectroscopy and near-field microscopy. This concept enables the field-resolved observation of 10-fs carrier dynamics
within a single indium-arsenide nanowire with 10-nm resolution in
all spatial dimensions.
ORAL
11:00
MON2s-I-03
INVITED
11:00
A nanoscale vacuum-tube diode triggered by few-cycle laser pulses
Novel Photonic Functionality with Few-layer Metamaterials
Takuya Higuchi, Peter Hommelhoff
Antoinette Taylor1, Houtong Chen1, Nathaniel Grady1, Jane Heyes1, Abul
Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Erlangen, Germany
Azad1, Dibakar Chowdhury1, Li Huang2
We propose and demonstrate a nanoscale vacuum-tube diode consisting of two metal nano-tips as an ultrafast electronic device employing pulsed electrons emitted by few-cycle photoemission. 1
Center for Integrated Nanaotechnologies, Los Alamos National Laboratory,
Los Alamos, United States
2
Physics Department, Harbin Institute of Technology, Harbin, China
We present thin-film-like terahertz metamaterials consisting of only
a few layers of planar subwavelength metallic structures for a host
of functionalities including antireflection, perfect absorption, linear
polarization conversion, and arbitrary wavefront shaping.
MON2o-O-05
ORAL
11:15
Photonic Hypercrystals
Evgenii Narimanov
Purdue University, West Lafayette, United States
We introduce a new “universality class” of artificial optical media photonic hypercrystals. These hyperbolic metamaterials with periodic spatial variation of dielectric permittivity on subwavelength scale
combine the features of optical metamaterials and photonic crystals.
MON2o-I-06
INVITED
11:30
MON2s-I-04
INVITED
11:30
Condensed Matter in Ultrafast and Superstrong Fields:
Attosecond Phenomena
Metasurface for simultaneous control of phase and amplitude
Mark Stockman
Xiaoqiang Su3, Ningning Xu4, Chunmei Ouyang3, Yunlong Shi2, Jiaguang
Center for Nano-Optics, Georgia State University, Atlanta, United States
Han3, Weili Zhang4
We discuss latest developments in theory and recent experimental
results for a new class of phenomena in condensed matter optics
when a strong optical field reversibly changes the solid within an
optical cycle.
1
Shuang Zhang1, Lixiang Liu1, 2, Xueqian Zhang1, 3, Mitchell Kenney1,
University of Birmingham School of Physics & Astronomy, Birmingham,
United Kingdom
2
Institute of Solid State Physics, Shanxi Datong University, Datong, China
3
Center for Terahertz Waves and College of Precision Instrument and
Optoelectronics Engineering, Tianjin University, Tianjin, China
4
School of Electrical and Computer Engineering, Oklahoma State University,
Oklahoma, United States
We combine the freedoms of both structural design and the orientation of the antennas to fully control the phase and amplitude profiles
of metasurface over a broad bandwidth.
17
MONDAY SESSIONS
MON2o-O-04
Monday Sessions
MON2o-I-07
INVITED
12:00
Bulk and Surface Correspondence through Geometric Phases in
Classical Wave Systems
Che Ting Chan, Meng Xiao
The Hong Kong University of Science and Technology, Hong Kong, China
We find a relationship between the surface impedance and the
geometric phase of the bulk bands for photonic crystals and this
bulk-interface correspondence can be used to determine the existence of interfacial states.
BREAK  12:30  17:00
OLYMPIA ROOM  17:00  18:45
SEEFELD/TIROL ROOM  17:00  18:45
Oral Session - MON3o - New Materials
Oral Session - MON3s - Chiral and Toroidal Metamaterials
Chair: Martin Wegener, Karlsruhe Institute of Technology (KIT),
Chair: Bumki Min, Korea Advanced Institute of Science and Technology
Karlsruhe, Germany
(KAIST), Daejeon, Korea, Republic of (South)
MON3o-I-01
INVITED
17:00
MON3s-I-01
MONDAY SESSIONS
All-optical magnetization switching on a nanoscale
INVITED
17:00
Martin Aeschlimann
Polarization Control of Light by Materials and Metamaterials with
Threefold Rotational Symmetry
Department of Physics and Research Center OPTIMAS, University of
Makoto Kuwata-Gonokami1, Takuya Higuchi2
Kaiserslautern, Kaiserslautern, Germany
1
Department of Physics, The University of Tokyo, Tokyo, Japan
All-optical magnetization switching (AOS) by circularly polarized
femtosecond laser pulses and suitable designed plasmonic nanoantennas imply the potential for optical control of magnetism and the
development of ever faster future magnetic recording technologies.
2
Friedrich-Alexander-University, Erlangen-Nürnberg, Germany
MON3o-O-02
MON3s-I-02
ORAL
Materials with three-fold rotational symmetry exhibit unique polarization properties in second-order nonlinear processes such as
terahertz and second-harmonic generation. We have demonstrated
polarization control and applications using materials or metamaterials with three-fold rotational symmetry.
17:30
INVITED
17:30
Magneto-chiral plasmonics in hybrid nanostructures
Nondispersive optical activity of meshed helical metamaterials
Hyeon-Ho Jeong1, Tung-Chun Lee1, Mariana Alarcón-Correa1,2, Sahand
Bumki Min, Hyun Sung Park, Teun-Teun Kim, Hyeon-Don Kim, Kyungjin Kim
Eslami1, John G. Gibbs1, Cornelia Miksch1, Andrew G. Mark1, Peer Fischer1,2
Korea Advanced Institute of Science and Technology (KAIST), Daejeon, Korea,
1
Max Planck Institute for Intelligent Systems, Stuttgart, Germany
Republic of (South)
2
Institute for Physical Chemistry, University of Stuttgart, Stuttgart, Germany
We demonstrate strong, flat broadband optical activity with high
transparency can be obtained with meshed helical metamaterials
in which metallic helical structures are networked and arranged to
have four-fold rotational symmetry around the propagation axis. We describe a physical vapour deposition process for generating,
at wafer scale, nanoscale plasmonic structures with complex three
dimensional shapes. We focus on hybrid nanoparticles that combine
multiple materials and possess multiple functionalities.
MON3o-I-03
INVITED
17:45
Dynamic Properties of Highly Doped Zinc Oxide
Nathaniel Kinsey, Clayton DeVault, Jongbum Kim, Ikuko Kitamura,
Marcello Ferrera, Urcan Guler, Ludmilla Prokopeva, Alexander Kildishev,
Vladimir Shalaev, Alexandra Boltasseva
Electrical and Computer Engineering, Birck Nanotechnology Center, Purdue
University, West Lafayette, United States
The dynamic properties of aluminum-doped zinc oxide are investigated using a pump-probe technique where an ultrafast change in
the transmission is observed. Using this effect, a tunable filter concept
in the near-infrared is investigated.
18
Monday Sessions
MON3s-O-03
ORAL
18:00
PT Symmetric Metasurfaces and Polarisation Phase Transitions
Mark Lawrence1, Ningning Xu2, Xueqian Xueqian1,3, Longqing Cong3,
Jiaguang Han3, Weili Zhang2,3, Shuang Zhang1
1
School of Physics and Astronomy, University of Birmingham, Birmingham,
United Kingdom
2
School of Electrical and Computer Engineering, Oklahoma State University,
Oklahoma, United States
3
Center for Terahertz Waves and College of Precision Instrument and
Optoelectronics Engineering, Tianjin University, Tianjin, China
We report the investigation of a novel phase transition in the polarisation
eigenstates of transmission through anisotropic PT symmetric metasurfaces, consisting of orthogonally orientated SRR arrays with different absorption coefficients. THz-TDS has been employed for characterisation.
INVITED
18:15
MON3s-I-04
INVITED
18:15
Optically Resonant Dielectric Nanostructures: A New Paradigm
for Nanophotonics
3D SRR, Toroidal Metamaterials and Metahologram
Arseniy Kuznetsov, Boris Luk'yanchuk
Chen1, Chun Yen Liao1, Wei-Yi Tsai1, Hao Tsun Lin1, Yi-Teng Huang1, Jie
Data Storage Institute, A*STAR (Agency for Science, Technology and Research),
Chen1, Yi-Hao Chen1, Hui Jun Wu1, Hao Xu1
Din Ping Tsai1,2, Pin Chieh Wu1, Yao-Wei Huang1, Wei-Lun Hsu1, Mu-Ku
5 Engineering Drive 1, Singapore 117608, Singapore
1
Department of Physics, National Taiwan University, Taipei, Taiwan
Nanoantennas made of high-index dielectrics is a new approach in
nanophotonics, which can substitute plasmonics for many potential
applications. They do not suffer from Ohmic losses and possess additional functionalities compared to their plasmonic counterparts.
2
Research Center for Applied Sciences, Academia Sinica, Taipei, Taiwan
Here, we performed several metamaterial based optical devices
including three-dimensional (3D) split-ring resonators (SRRs)
based nanophotonic sensor, toroidal response in metamaterials and
high-efficiency broadband reflected metasurface and meta-hologram
at optical frequencies. FOYER  COFFEE BREAK  18:45  19:00
OLYMPIA ROOM  19:00  20:00
SEEFELD/TIROL ROOM  19:00  20:00
Oral Session - MON4o - Breakthrough Talk I
Oral Session - MON4s - Breakthrough Talk II
Chair: Alexandra Boltasseva, Purdue University, West Lafayette, United States
Chair: Hongsheng Chen, Zhejiang University, Hangzhou, China
MON4o-K-01
MON4s-K-01
BREAKTHROUGH
19:00
BREAKTHROUGH
19:00
Photonic Topological Insulators
3D Invisibility Cloaking in Ballistic and Diffusive Propagation of Light
Mordechai (Moti) Segev
Martin Wegener
Physics Department, Technion, Israel, Haifa, Israel
Karlsruhe Institute of Technology (KIT) Institute of Applied Physics Institute of
The recent expriments on photonic topological insuolators signified a
new direction in photonics. The progress in this area will be reviewed,
with an emphasis on universal ideas common to optics, cold atoms
and quantum systems.
Nanotechnology, Karlsruhe, Germany
MON4o-I-02
MON4s-K-02
INVITED
We present our recent experimental work on invisibility cloaking
in the diffusive regime of light propagation in three dimensions,
throughout the entire visibe range, for macroscpic objects, and for
all directions and polarizations of light.
19:30
BREAKTHROUGH
19:30
Active Nanophotonics: Nonlinear Metamaterials and Nanoemitters
Active 3D plasmonics
Yeshaiahu Fainman
Na Liu
UCSD, La Jolla, United States
Max Planck Institute for Intelligent Systems, Stuttgart, Germany
This paper discusses nanoscale engineered second order nonlinearities in silicon and a 3-D confined metal-dielectric-semiconductor
resonant gain geometries used to create a new type of nanolasers for
chip-scale integration of photonic information systems.
Active control of 3D configuration is the key step towards smart
plasmonic nanostructures with desired functionalities. We lay out
a multi-disciplinary strategy to create active 3D plasmonic nanostructures, which execute DNA-regulated conformational changes
on the nanoscale.
19
MONDAY SESSIONS
MON3o-I-04
Tuesday Sessions
TUESDAY, 6 JANUARY 2015
OLYMPIA ROOM  08:30  09:30
Plenary Session - TUE1o - Plenary Talk 2
TUE1o-PL-01
PLENARY
08:30
Enhancing Light-matter Interactions Using Microstructured
Glass Fibres
Philip Russell
Max Planck Institute for the Science of Light, Erlangen, Germany
Twisted PCF supports novel helical Bloch modes, dual nanoweb fibres offer giant optomechanical gain and acoustic resonances trapped
in micron-scale glass cores can be used to stably mode-lock soliton
fibre lasers at gigahertz rates.
FOYER  COFFEE BREAK  09:30  09:45
OLYMPIA ROOM  09:45  12:00
SEEFELD/TIROL ROOM  09:45  12:15
Oral Session - TUE2o - Ultrafast & Nonlinear
Oral Session - TUE2s - Nanophotonics
Chair: Andrea Alù, The University of Texas at Austin, Austin, United States
Chair: Nader Engheta, University of Pennsylvania, Philadelphia, United States
TUE2o-I-01
TUE2s-I-01
INVITED
09:45
TUESDAY SESSIONS
Broadband Terahertz Generation from Metamaterials
INVITED
09:45
Costas M Soukoulis
Jaynes-Cummings nonlinearity of a quantum dot coupled to a
plasmonic resonator
Ames Lab/Iowa State University, Ames, United States
Bert Hecht, Heiko Gross
IESL-FORTH, Heraklion, Greece
Nano-Optics & Biophotonics group Institute of Physics University of Würzburg,
We experimentally demonstrate efficient broadband THz generation, ranging from 0.1 - 4 THz, from a thin layer of SRRs with few
tens of nanometers thickness by pumping at tele-communications
wavelength of 1.5 microns (200 THz).
Würzburg, Germany
A single quantum dot is strongly coupled to a plasmonic resonator
at ambient conditions. Power depenedent spectra reveal a nonlinear
response that is compatible with the activation of higher transitions
of the Jaynes-Cummings ladder.
TUE2s-O-02
TUE2o-I-02
INVITED
10:15
Christian Schneider1, S. Unsleber1, P. Gold1, S. Maier1, M. Dambach1, S.
Nathaniel Kinsey1, Devon Courtwright2, Clayton DeVault1, Vladimir
Höfling1, M. Kamp1, D.P.S. McCutcheon2, N. Gregersen2, J. Mork2, Y.M. He3, Y.
Gavrilenko , Carl Bonner Alexander Kildishev , Alexandra Boltasseva ,
He3, C.Y Lu3, J.W. Pan3
Vladimir Shalaev
1
2,3
1
1
1
1
Electrical & Computer Engineering, Birck Nanotechnology Center, Purdue
Technische Physik, University of Würzburg, am Hubland, 97074 Würzburg,
Würzburg, Germany
University, West Lafayette, IN, United States
2
10:15
Exploring the limits of the two photon interference from coupled
quantum dot- microcavity systems
Inherent Third-Order Nonlinearities in Refractory Metallic TiN Thin
Films
2
ORAL
2
Center for Materials Science, Norfolk State University, Norfolk, VA,
Department of Photonics Engineering, Technical University of Denmark,
Orsteds Plads, 2800 Kgs. Lyngby, Lyngby, Denmark
Hefei National Laboratory for Physical Sciences at Microscale and
United States
3
The third-order nonlinear properties of the refractory metal titanium nitride are investigated using Z-scan. TiN is shown to have
a nonlinear performance one order of magnitude larger than gold
films of a similar thickness.
Department of Modern Physics, University of Science and Technology of
China, Hefei,Anhui 230026, China, Hefei, China
We investigate the influence of time jitter, phonons and spectral diffusion, as well as the excitation conditions on the photon
interference properties of single InAs QDs embedded in optical microcavities.
20
Tuesday Sessions
TUE2s-I-03
INVITED
10:30
Nanowire Quantum Dots for Quantum Optics
Val Zwiller
Delft University of Technology, Delft, Netherlands
We demonstrate the generation of single photons as well as pairs of
entangled photons with quantum dots in semiconducting nanowires, we show applications to quantum optics including generation,
manipulation and detection of light at the nanoscale.
TUE2o-O-03
ORAL
10:45
Functional and Efficient Nonlinear Metamaterial Photonic Crystals
Nadav Segal, Shay Keren-Zur, Netta Hendler, Tal Ellenbogen
Department of Physical Electronics, Fleischman Faculty of Engineering, TelAviv University, Tel-Aviv 69978, Israel, Tel-Aviv, Israel
We demonstrate experimentally exceptional control of nonlinear emission from a new family of nonlinear metamaterials, including wide-angle all-optical deflection and intense focusing. In addition we show
how to create 3D structures towards efficient frequency conversion.
INVITED
11:00
TUE2s-O-04
ORAL
11:00
Metal Nanoantennas: Nonlinear Response and Coupling
to Nanoemitters
Short-range surface plasmonics on atomically flat thin gold platelets: Nanofocusing down to 60 nm at λ=800 nm
Rudolf Bratschitsch
Bettina Frank1, Thomas Weiss1, Philip Kahl2, Michael Horn-von Hoegen2,
Institute of Physics, University of Münster, Münster, Germany
Frank Meyer zu Heringdorf2, Liwei Fu3, Wilfried Sigle4, Harald Giessen1
We study the nonlinear emission of metal nanoantennas excited with
few-cycle infrared light pulses and couple antennas with atomically
thin semiconductors to increase the light-matter interaction. 1
4th Physics Institute, University of Stuttgart, Stuttgart, Germany
2
Faculty of Physics and Center for Nanointegration, University of Duisburg-
Essen, Duisburg, Germany
3
Institute of applied Optics, University of Stuttgart, Stuttgart, Germany
4
Max Planck Institute for Intelligent Systems, Stuttgart, Germany
We excite and focus short-range surface plasmon polaritons down to
60 nm using electrochemically grown atomically flat single crystalline
gold platelets on silicon substrates.We observe short range plasmons and
nanofocusing using two-photon-photoemission electron microscopy.
TUE2s-O-05
ORAL
11:15
Metasurfaces Meet a Plasmonic Spiral for Super Functional Lensing
Grisha Spektor, Asaf David, Bergin Gjonaj, Guy Bartal, Meir Orenstein
Technion - Israel Institute of Technology, Haifa, Israel
We realized metasurface spiral plasmonic lens which solves multiple
efficiency and functionality issues of conventional plasmonic lenses.
The metasurface lens achieves efficient high contrast linear-polarization-independent plasmonic focusing and efficient high contrast
circular dichroism.
TUE2o-I-05
INVITED
11:30
TUE2s-O-06
Metasurfaces and Epsilon-Near-Zero Modes in Semiconductors
ORAL
11:30
Igal Brener
Two-dimensional atomic crystals enable subdiffractional
optical imaging
Center for Integrated Nanotechnologies and Sandia National Laboratories,
Peining Li, Thomas Taubner
Albuquerque, New Mexico, United States
Institute of Physics (IA), RWTH Aachen University, Aachen, Germany
I will discuss the physics of epsilon-near-zero (ENZ) modes in thin
conducting layers. These ENZ modes can be used to alter and enhance the coupling between metasurfaces, phonons and intersubband transitions in semiconductor heterostructures.
We experimentally demonstrate that two-dimensional atomic crystals, such as graphene and hexagonal boron nitride (hBN), enable
near-field optical subwavelength imaging.
21
TUESDAY SESSIONS
TUE2o-I-04
Tuesday Sessions
TUE2s-I-07
INVITED
11:45
Control of physical phenomena with non-local dielectric environments
Thejaswi Tumkur1, Vanessa Peters1, John Kitur1, Yuri Barnakov2, Carl
Bonner1, Alexander Poddubny3,4, Evgenii Narimanov5, Mikhail Noginov1
1
Center for Materials Research, Norfolk State University, Norfolk, United States
2
Azimuth Corporation, Dayton, United States
3
ITMO University, St. Petersburg, Russia
4
Ioffe Physical-Technical Institute, St. Petersburg, Russia
5
Birck Nanotechnology Center, Department of Electrical and Computer
Engineering, Purdue University, West Lafayette, United States
We demonstarte that a variety of phenomena, including spontaneous
and stimulated emission, scattering, Förster energy transfer, wetting,
and chemical reactions, can be controlled by non-local dielectric
environments and the density of photonic states.
BREAK  12:15  16:15
OLYMPIA ROOM  16:15  17:00
TUE3o - Technology Talk by Neaspec
FOYER  POSTER SESSION  17:00  18:30
POSTER SESSION  TUE4F  POSTER SESSION I
TUE4f-P-03
Chair: Harry Atwater, California Institute of Technology, Pasadena,
United States
Quantum Emitters near Layered Plasmonic Nanostructures
Jarlath McKenna, IOP Publishing, Bristol, United Kingdom
TUESDAY SESSIONS
POSTER
Anders Pors, Sergey I. Bozhevolnyi
Department of Technology and Innovation, University of Southern Denmark,
TUE4f-P-01
Odense M, Denmark
POSTER
We introduce a general numerical framework for calculating the
contributions of emission, dissipation, and SPP excitation on decay
rates of quantum emitters near layered plasmonic nanostructures,
particularly discussing the case of gap-plasmon resonators.
Lateral Forces Acting on Particles Near a Surface Under Circularly
Polarized Illumination
Francisco J. Rodríguez-Fortuño1, Nader Engheta2, Alejandro Martínez3,
Anatoly V. Zayats1
1
King’s College London, London, United Kingdom
2
University of Pennsylvania, Philadelphia, United States
3
Universitat Politècnica de València, Valencia, Spain
TUE4f-P-04
Nonlinear Epsilon-Near-Zero metamaterials
A dipole in close proximity to a surface experiences electromagnetic forces perpendicular to it. If the dipole is circularly polarized,
intriguing lateral forces, parallel to the surface, also exist, switchable
with the polarization.
TUE4f-P-02
POSTER
Daniele Faccio1, Rishad Kaipurath1, Monika Pietrzyk2, Lucia Caspani1,
Thomas Roger1, Andrea Di Falco2
1
Heriot-Watt University, Edinburgh, United Kingdom
2
University of St. Andrews, St. Andrews, United Kingdom
Metamaterial structures composed of Silver-Glass layers exhibit epsilon-near-zero behaviour with a huge Kerr optical nonlinearity, n_2=1e-10
cm^2/W.The measurements are in agreement with theoretical predictions
and pave the way to extreme, non-perturbative nonlinear optics.
POSTER
Perforated SOI Microring Resonators for Optical Biosensing
Raimondas Petruskevicius1, Darius Urbonas1, Martynas Gabalis1,
Konstantinas Vaskevicius1, Armandas Balcytis2, Saulius Juodkazis2
1
Center for Physical Sciences and Technology, Vilnius, Lithuania
2
Swinburne University of Technology, Melbourne, Australia
TUE4f-P-05
POSTER
Coherent control of negative refraction in graphene
We suggest that implementation of sub-wavelength structures
into silicon-on-insulator (SOI) microring resonators increases
the light-matter interaction and the sensitivity of biosensors.
The recent results on fabrication of micro wheel resonators
are presented.
Daniele Faccio, Shraddha Rao, Ashley Lyons, Thomas Roger, Matteo Clerici
Heriot-Watt University, Edinburgh, United Kingdom
We demonstrate efficient phase conjugation and negative refraction
in a 30-layer graphene film using only a single pump beam. The
same geometry also allows to coherently control and modulate the
amplitude of the output beams.
22
Tuesday Sessions
TUE4f-P-06
POSTER
2
A. M. Prokhorov General Physical Institute, Russian Academy of Sciences,
Excitons in a mirror: Bandstructure tuning of 2D materials
Moscow, Russia
Jan Mertens1, Jeremy Baumberg1, Yumeng Shi2, Hui Ying Yang2, Alejandro
We experimentally and theoretically demonstrate enhancement
of thin-film Faraday rotation in nanostructures exhibiting waveguide-plasmon-polaritons. Using a classical harmonic oscillator
model, we are able to obtain profound understanding of the magneto-optical response of the hybrid structures.
Molina-Sanchez , Ludger Wirtz
3
1
3
NanoPhotonics Centre, Cavendish Laboratory, University of Cambridge,
Cambridge, United Kingdom
2
Pillar of Engineering, University of Technology and Design,
Singapore, Singapore
Physics and Materials Science, University of Luxembourg,
TUE4f-P-11
Luxembourg, Luxembourg
We report the formation of `mirror biexcitons` in monolayers of
molybdenum disulphide (MoS2) on gold substrates. Excitons couple
to their mirror image in the underlying gold and create an optical
equivalent to MoS2 bilayers.
POSTER
Design rules for active magnetoplasmonic metasurfaces
Kristof Lodewijks1, Nicolò Maccaferri2, Tavakol Pakizeh3, Randy K.
Dumas4, Irina Zubritskaya1, Johan Åkerman4, Paolo Vavassori2,5,
Alexandre Dmitriev1
1
Chalmers University of Technology, Gothenburg, Sweden
2
CIC nanoGUNE Consolider, Donostia-San Sebastian, Spain
3
K.N. Toosi University of Technology, Tehran, Iran
Negative Refraction of the Graphene Barium Ferrite Composite in
the UHF Band
4
University of Gothenburg, Gothenburg, Sweden
5
IKERBASQUE, Basque Foundation for Science, Bilbao, Spain
Karen Oganisian, Wieslaw Strek
Magnetoplasmonics offers a versatile smart toolbox in the quest
for actively tunable metasurfaces. Here we present design rules for
metasurfaces based on magnetoplasmonic nanoantennas that allow
for advanced control of light polarization states.
TUE4f-P-07
POSTER
Institute of Low Temperature and Structure Research Polish Academy of
Science, Wroclaw, Poland
The graphene barium ferrite composite reveals the electric and magnetic resonances accompanied by negative values of permittivity
and permeability in the overlapped frequency range leading to the
negative refraction in the UHF band.
TUE4f-P-08
TUE4f-P-12
Enhanced performance of plasmonic biosensors using hybrid plasmonic mode in the Kretschmann configuration.
POSTER
Mitradeep Sarkar1, Julien Moreau1, Mondher Besbes1, Jean-François
Designing metallic nanocavities for enhanced Four-Wave Mixing
Bryche1, 2, Aurore Olivéro1, Michael Canva1
Euclides Almeida, Yehiam Prior
1
Weizmann Institute of Science, Rehovot, Israel
Palaiseau, France
Four-wave-mixing from rectangular metallic nanocavities in a thin
gold film is observed experimentally and discussed theoretically,
and the cavity shape is optimized to provide enhancement of more
than an order of magnitude.
2
TUE4f-P-09
POSTER
Laboratoire Charles Fabry, Insitut d'Optique Graduate School,
Institut d'Electronique Fondamentale, Université Paris Sud, Orsay, France
Hybrid Lattice Plasmon mode in nanostructured biochips, resulting
from coupling of propagating and localized plasmons, shows promising high local field intensity and tunability. These biochips can be
advantageously used in SPR and SERS. POSTER
TUE4f-P-13
Magnesium for UV plasmonics and chemical reaction sensing
POSTER
Harald Giessen
Large-area low-cost palladium-based plasmonic perfect absorber
for hydrogen sensing
4th Physics Institute and Research Center SCoPE, University of Stuttgart,
Ramon Walter, Andreas Tittl, Nikolai Strohfeld, Harald Giessen
Stuttgart, Germany
4th Physics Institute and Research Center SCoPE, University of Stuttgart,
We fabricate magnesium nanostructures with relatively strong
resonances in the UV-region. Furthermore, we optically monitor chemical reactions taking place on plasmonic nanoparticles
of Mg and other materials when exposed to various controlled
gas compositions.
Stuttgart, Germany
TUE4f-P-10
TUE4f-P-14
Florian Sterl, Andreas Tittl, Nikolai Strohfeldt, Ramon Walter,
Palladium-based perfect absorbers are promising candidates for
highly sensitive hydrogen detectors. Here, we present a straightforward, low-cost, and reliable method to produce such devices by using
colloidal lithography in combination with a dry-etching process.
POSTER
Tunable and switchable Faraday rotation in magnetoplasmonic
waveguides: Classical harmonic oscillator modeling
Mesoscopic self-collimation in arbitrary directions
Giovanni Magno1, Antoine Monmayrant2,3, Marco Grande1, Giovanna
Dominik Floess , Thomas Weiss , Harald Giessen , Sergei Tikhodeev
1
1
1
1
POSTER
Calò1, Olivier Gauthier-Lafaye2,3, Vincenzo Petruzzelli1
2
4 Physics Insitute and Research Centre SCOPE, University of Stuttgart,
th
1
Stuttgart, Germany
Dipartimento di Ingegneria Elettrica e dell'Informazione (DEI), Via Re David
200, Politecnico di Bari, 70125 Bari., Bari, Italy
23
TUESDAY SESSIONS
3
Tuesday Sessions
2
TUE4f-P-19
CNRS, LAAS, 7 avenue du colonel Roche, F-31400 Toulouse, France,
Rigorous numerical analysis of plasmonically enhanced chiroptical response
Toulouse, France
3
Université de Toulouse, LAAS, F-31400 Toulouse, France, Toulouse, France
We demonstrate numerically that Mesoscopic photonic crystals support mesoscopic self-collimation in arbitrary directions not limited to high symmetry directions. Moreover, achieving mesoscopic
self-collimation below the light line, to outwit the out-of-plane losses,
is also possible.
TUE4f-P-15
POSTER
Thomas Weiss, Maxim Nesterov, Xinghui Yin, Martin Schäferling,
Harald Giessen
4th Physics Institute and Research Center SCoPE, University of Stuttgart,
Stuttgart, Germany
We present thorough numerical investigations of the electrodynamical interaction between chiral media and chiral plasmonic structures.
We find that the circular dichroism signal can be enhanced by a factor
of more than one hundred.
POSTER
3D Printed All-Dielectric Metamaterial
Dmitry Isakov, Qin Lei, Patrick Grant
TUE4f-P-20
University of Oxford, Department of Materials, Oxford,
High Order modes in Cavity Resonator Integrated Grating
Filters (CRIGFs)
United Kingdom
We present an all-dielectric metamaterial comprising 3D-printed
slab with graded and anisotropic dielectric permittivity. By designing the arrangement of the dielectric materials, the frequency and
magnitude of Mie-resonances can be manipulated to provide metamaterial characteristics.
Romain Laberdesque1, Olivier Gauthier-Lafaye1, Henri Camon1, Antoine
Monmayrant1, Marlène Petit2, Olivier Demichel2, Benoît Cluzel2
1
POSTER
France, Dijon, France
We report experimental observation of high-order modes inside Cavity
Resonator Integrated Grating Filters exhibiting narrow-line spectral resonance associated with complex spatial profile. Combining coupled-wave
modeling and Moiré analysis, we can predict and control these modes.
Ann-Katrin Michel1, Dmitri Chrigrin1, Peter Zalden2, Aaron Lindenberg2,
TUESDAY SESSIONS
Thomas Taubner1
1
RWTH Aachen University, Aachen, Germany
Stanford University, Stanford, United States
TUE4f-P-21
The resonance position of IR antennas can be changed by reversibly
switching the refractive index made from phase-change material
cover layers. We find remarkable resonance shifts of up to about 18%
change in center frequency.
TUE4f-P-17
Optique de Champ Proche, Laboratoire Interdisciplinaire Carnot de
Bourgogne, Université de Bourgogne, 9 avenue Alain Savary, F21078 Dijon,
Phase-change materials for non-volatile, low-loss IR antenna resonance tuning with ultrafast reversibility
2
PHOTO, CNRS, LAAS, 7 avenue du Colonel Roche, F31400 Toulouse, France,
Toulouse, France
2
TUE4f-P-16
POSTER
POSTER
Bio-Inspired Nanophotonics – Circular Polarisation in Scarab Beetles
Luke McDonald, Ewan Finlayson, Peter Vukusic
University of Exeter, Exeter, United Kingdom
We present the spectral and angle-dependent optical properties from
several beetles of the genus Chrysina that reflect circularly polarised
light. We detail their chiral nanoarchitectures and the circularly polarising features to which they give rise.
POSTER
Near-Field Radiative Heat Transfer between Metallic Metasurfaces
Jin Dai, Sergey Dyakov, Min Yan
School of Information and Technology,KTH-Royal Institute of Technology,
TUE4f-P-22
Kista, Sweden
We numerically demonstrate the possibility to enhance radiative heat
transfer between metallic plates over a wide range of frequencies in
the near-field regime by nanostructuring the surfaces.
POSTER
Narrowband resonances in optically coupled nanorods for ultra-sensitive biosensing
Arkadi Chipouline, Egor Khaidarov, Thomas Khaidarov
Institute of Applied Physics, Abbe Center of Photonics, Friedrich-Schiller-
TUE4f-P-18
Universität Jena, Max-Wien-Platz 1, 07743, Jena, Germany, Jena, Germany
POSTER
We present recently obtained results with the 1D chains of optically
coupled nanoresonators exhibiting ultra narrowband resonances.
Ultrahigh sensitivity is expected to be enough for reliable detection
of exosomal content for express selective cancer diagnostics.
Infrared Beam-steering Using Mechanically Modulated
Graphene Monolayer
Mohamed Farhat1, Pai-Yen Chen2
1
King Abdullah University of Science and Technology, thuwal-jeddah,
Saudi Arabia
2
TUE4f-P-23
Wayne State University, Detroit, United States
We propose a graphene-based infrared beam-former based on the
concept of surface leaky-wave. The excitation of infrared surface
plasmon polaritons over an acoustically modulated one-atomthick graphene monolayer is typically associated with intrinsically
slow light.
POSTER
Hysteresis behaviour and narrowband resonances in chains of
active nonlinear nanoresonator
Arkadi Chipouline2, Sergey Fedorov1,3, Nikolay Rosanov1,3
1
1National Research University of Information Technologies, Mechanics and
Optics (University ITMO), 197101, St.Petersburg, Russia, St.Petersburg, Russia
24
Tuesday Sessions
2
TUE4f-P-28
Institute of Applied Physics, Friedrich Schiller University, Jena, Germany,
Contribution withdrawn.
Jena, Germany
3
POSTER
Vavilov State Optical Institute, 199034 St.Petersburg, Russia,
St.Petersburg, Russia
TUE4f-P-29
We propose to use hysteresis in a 1D system of active nonlinear nanoresonators to achieve the Narrowband Resonances. Combination
of Wood anomaly, retardation, and nonlinearity provides platform
for light nanosources and highly sensitive sensors.
TUE4f-P-24
POSTER
Funnel vortex beams with arbitrary shape
Ioannis Chremmos
Max Planck Institut for the Science of Light, Erlangen, Germany
Optical funnel beams with arbitrary shapes are introduced and designed through a combination of Fresnel diffraction and ray optics
theory. Such beams can be very useful in the optical manipulation
and funneling of particles.
POSTER
Microparticles Manipulation by Nonparaxial Accelerating Beams
Ran Schley, Ido Kaminer, Elad Greenfield, Rivka Bekenstein, Yaakov Lumer,
Mordechai Segev
TUE4f-P-30
Physics Department and Solid State Institute, Technion, 32000 Haifa, Israel
We introduce loss-proof shape-invariant nonparaxial accelerating
beams that overcome both diffraction and absorption, and demonstrate their use in acceleration of microparticles inside liquids along
curved trajectories that are significantly steeper than ever achieved
TUE4f-P-25
POSTER
Metamaterials Photonic Crystal Waveguide Structure Sensors
Mohammed Shabat, Dena El-Amassi
Islamic University of Gaza, Gaza, Egypt
In this work, the sensitivity of TE polarized wave in a multilayer one
dimensional photonic crystal consisting of alternate right-handed
material and left-handed materials has been investigated theoretically
with various physical parameters of the structure.
POSTER
An Algorithmic Approach to Plasmonic Optical Filter Design
Amit Agrawal1,2, Matthew Davis3, Ting Xu1,2, Christopher Bohn1,
TUE4f-P-31
Henri Lezec1
POSTER
Ultrafast Optical Switching of Topological Insulator
Plasmonic Metamaterial
Center for Nanoscale Science and Technology, National Institute of
Standards and Technology, Gaithersburg, United States
2
Maryland Nanocenter, University of Maryland, College Park, United States
Stefano Vezzoli1,2, Giorgio Adamo1,2, Zeng Wang1,2, Venkatram
3
Department of Electrical Engineering and Computer Science, Syracuse
Nalla1,2, Azat Sulaev2, Handong Sun1,2, Lan Wang2, Cesare Soci1,2,
University, Syracuse, United States
Nikolay Zheludev1,2,3
We demonstrate experimental realization of an aperiodic slit-groove
plasmonic device that exhibits angle-selectable RGB color response.
The structure, designed using an optimization algorithm, demonstrates high quality-factor and optical-contrast while exhibiting a
full-color optical response.
1
Centre for Disruptive Photonic Technologies, Nanyang Technological
University, Singapore, Singapore, Singapore
2
Division of Physics and Applied Physics, Nanyang Technological University,
Singapore, Singapore
3
Optoelectronics Research Centre & Centre for Photonic
Metamaterials, University of Southampton, Southampron,
TUE4f-P-26
United Kingdom
POSTER
We report that resonant plasmonic response of metamaterial fabricated on the surface of topological insulator Bi1.5Sb0.5Te1.8Se1.2
can be modulated by optical injection of free carriers. Sub-picosecond switch-on and picosecond switch-off transient response
is observed
Transmission of Light across a Gold Thin film through
Gold Nanospheres
Kazuki Fujii1, Ryushi Fujimura1, Masayuki Shimojo2, Kotaro Kajikawa1
1
Tokyo Institute of Technology, Yokohama, Japan
2
Shibaura Institute of Technology, Tokyo, Japan
Transmission across a gold thin film through gold nanospheres immobilzied on the film is observed. It is observed at the wavelengths
in the absence of localized surface plasmon resonance.
TUE4f-P-27
TUE4f-P-32
POSTER
100 THz bandwidth all-optical switching using coherent absorption
in plasmonic metamaterials
Venkatram Nalla1, João Valente2, Handong Sun1, Nikolay Zheludev1,2
POSTER
1
Centre for Disruptive Photonic Technologies, Nanyang Technological
Blackbody Metamaterials using a Lotus-Leaf as a Bio-template
University, 637371, Singapore, Singapore
Yuusuke Ebihara1, Masayuki Shimojo2, Kotaro Kajikawa1
2
Optoelectronics Research Centre and Centre for Photonic
1
Tokyo Institute of Technology, Yokohama, Japan
Metamaterials, University of Southampton, SO17 1BJ, Southampton,
2
Shibarura Institute of Technology, Tokyo, Japan
United Kingdom
Blackbody metamaterials are fabricated on a leaf of lotus covered
with 30-nm thick spattered gold film. The non-reflection property
originates from the fine surface structure (macaroni-like nanorod
structures) of lotus leaves.
Using femtosecond laser with variable pulse duration we probe the
limits of switching that exploits coherent absorption in nanostructured gold films. Switching contrast ratios of 7:1 with a modulation
bandwidth exceeding 100 THz has been observed.
25
TUESDAY SESSIONS
1
Tuesday Sessions
TUE4f-P-33
POSTER
TUE4f-P-38
Independent Control of the Electromagnetic Properties in
Magnetic Composites.
Thermal near-infrared emission by resonant structures
Laura Parke , Ian Youngs , Roy Sambles , Alastair Hibbins
Pedersen2, Sergey I Bozhevolnyi1
1
2
1
Alexander Roberts1, Manohar Chirumamilla Chirumamilla2, Kjeld
1
1
University of Exeter, Exeter, United Kingdom
1
2
DSTL, Salusibury, United Kingdom
Bohrs Allé 1, 5230 Odense, Denmark, Odense, Denmark
By controlling the particle size of NiZn ferrite powder within a polymer (PTFE) matrix, the electromagnetic properties can be tailored
to create bespoke effective medium electromagnetic parameters for
a given volume concentration.
TUE4f-P-34
POSTER
2
Institute of Technology & Innovation, University of Southern Denmark, Niels
Department of Physics & Nanotechnology, Aalborg University, Skjernvej 4A,
9220 Aalborg Øst, Denmark
Spectral emission and thermal stability of continuous Fabry-Perot
resonators is investigated at elevated temperatures,
shown to elicit features related to the reflectivity and to be suitable
for the tailoring of narrowband emission
in near-infrared.
POSTER
Independently Controlling Permittivity and Permeability
in Broadband, Low-Loss, Isotropic Metamaterials at
Microwave Frequencies.
TUE4f-P-39
POSTER
1
University of Exeter, Exeter, United Kingdom
Flying Electromagnetic Toroids: propagation properties and
light-matter interactions
2
DSTL, Salisbury, United Kingdom
Tim Raybould1, Vassili Fedotov1, Nikitas Papasimakis1, Ian Youngs2,
Laura Parke1, Ian Youngs2, Ian Hooper1, Alastair Hibbins1, Roy Sambles1
A broadband, high refractive index metamaterial has been designed and fabricated that allows independent control of both
its effective permeability and its effective permittivity at microwave frequencies.
TUE4f-P-35
Nikolay Zheludev1
1
Optoelectronics Research Centre, University of Southampton,, Southampton,
United Kingdom
2
DSTL, Salisbury, United Kingdom
We report on the study of the time-space localized solutions to
Maxwell’s equations with toroidal topology that have intriguing
properties and interact with interfaces and nanostructures in a
peculiar fashion.
POSTER
Plasmon wave function of graphene nanoribbons
TUESDAY SESSIONS
Iván Silveiro1, Juan Manuel Plaza Ortega1, Javier García de Abajo1,2
1
ICFO-Spain, Castelldefels, Spain
2
ICREA, Barcelona, Spain
TUE4f-P-40
We extract a universal plasmon wave function for graphene ribbons
and show that dimers and arrays in co-planar and/or vertically displaced configurations are well described through a semi-analytical
model relying on that wave function.
POSTER
Hotspot-mediated nonlinear control of multifrequency plasmonic nanoantennas
Otto Muskens1, Martina Abb1, Yudong Wang1,2, Kees de Groot2
1
Physics and Astronomy, University of Southampton, SO17 1BJ,
Southampton, United Kingdom
2
TUE4f-P-36
POSTER
Nano Group, University of Southampton, SO17 1BJ, Southampton,
United Kingdom
Resonant pumping of a nonlinear substrate through the near-field
hotspot of a plasmonic antenna is demonstrated and is used to modulate the response of another plasmonic mode, corresponding to an
antenna with perpendicular orientation.
Robust Perfect Lensing Using a Double-Negative Metasurface
Gilad Rosenblatt, Meir Orenstein
Department of Electrical Engineering, Technion, Israel, Haifa, Israel
We prove that perfect lensing can be realized at a detection
point embedded within a double-negative metasurface. The
unbounded resolution is not deteriorated by media loss
and excitation frequency offsets – showing promise for future application.
TUE4f-P-41
POSTER
Image Processing Using Coherent Absorption
Maria Papaioannou1, Eric Plum1, Edward T. F. Rogers1,2, Nikolay
TUE4f-P-37
I. Zheludev1,3
POSTER
1
Optoelectronics Research Centre and Centre for Photonic Metamaterials,
Broadband, giant optical activity in a chiral metamaterial
University of Southampton, Southampton, United Kingdom
Ben Tremain1, Ana Díaz-Rubio2, Jorge Carbonell2, José Sánchez-Dehesa2,
2
Alastair Hibbins
United Kingdom
1
Institute for Life Sciences, University of Southampton, Southampton,
1
University of Exeter, EXETER, United Kingdom
3
2
Universitat Politècnica de Valencia, Valencia, Spain
University, Singapore, Singapore
We present the first experimental verification of broadband, giant
optical activity of an array of metallic crosses above rotated complementary crosses. We show the bandwidth of strong transmission
can be increased via a multilayered system.
Centre for Disruptive Photonic Technologies, Nanyang Technological
We demonstrate logical operations with two images using coherent
interaction of optical beams on thin films and metasurfaces. The
new coherent image processing is illustrated by mode selection and
deletion for spatial mode multiplexing.
26
Tuesday Sessions
TUE4f-P-42
POSTER
1
Institute of Applied Physics, Johannes Kepler University Linz, Altenberger
Optical Cloaking with Spatially Dispersive Hyperbolic Metamaterials
Strasse 69,, Linz, Austria
Alexander S. Shalin1, Pavel Ginzburg1,2, Alexey A. Orlov1, Ivan Iorsh1, Pavel
2
A. Belov , Yuri S. Kivshar , Anatoly V. Zayats
Nanotechnologies MacroNano®, Technische Universität Ilmenau,,
1
1,3
2
Institute of Materials Engineering and Institute of Micro- and
1
ITMO University, St. Petersburg, Russia
Ilmenau, Germany
2
King's College London, London, United Kingdom
3
Australian National University, Canberra, Australia
We present the correlation between structural and optical properties of three-dimensionally gold/air percolated nanoparticles,
nanosponges. The scattering spectra depend only weakly on size
and outer shape, but are decisively influenced by the inner mesoporous structure.
Nearly perfect concealing of arbitrary objects in hyperbolic metamaterial acting as an alignment-free cloak is proposed. The scattering
suppression relies on the combination of normal and additional
modes simultaneously existing in a spatially dispersive material.
TUE4f-P-47
TUE4f-P-43
POSTER
POSTER
Randomly Addressable Reconfigurable Photonic Metamaterials
Resonant Response of Superconducting Metamaterial at
Optical Frequencies
Pablo Cencillo1, Jun-Yu Ou1, João Valente1, Eric Plum1, Nikolay Zheludev1,2
Kaveh Delfanazari1, Vassili Savinov1, Otto Muskens2, Nikolay Zheludev1,3
1
Optoelectronics Research Centre and Centre for Photonic Metamaterials,
1
University of Southampton, Southampton, United Kingdom
2
Optoelectronics Research Centre and Centre for Photonic Metamaterials,
University of Southampton, Southampton, SO17 1BJ, United Kingdom,,
Centre for Disruptive Photonic Technologies, Nanyang Technological
Southampton, United Kingdom
Physics and Astronomy, University of Southampton, Southampton, SO17
University, Singapore, Singapore
2
We report on randomly addressable reconfigurable metamaterials
that can be driven by thermal, Lorentz or Coulomb forces. Simultaneous spatial and temporal modulation of optical material properties
enables various metadevices on demand.
1BJ, United Kingdom,, Southampton, United Kingdom
TUE4f-P-44
3
Centre for Disruptive Photonic Technologies, Nanyang Technological
University, 21 Nanyang Link, 637371, Singapore,, Nanyang, Singapore
Resonant electromagnetic response of niobium metamaterial
in the optical part of the spectrum, i.e. above the superconducting bandgap, shows strong temperature variation near the critical temperature. Plasmonic mechanism of the optical response
is discussed.
POSTER
Plasmonic Mode Coupling in a Nanoimprinted Metamaterial
Danzberger2, Iris Bergmair2
1
TUE4f-P-48
Institute of Applied Physics, Johannes Kepler University Linz, Altenberger
Plasmon-enhanced nonradiative energy transfer in a hybrid quantum well-quantum dot system
Strasse 69,, Linz, Austria
2
POSTER
Functional Surfaces and Nanostructures, PROFACTOR GmbH, Im Stadtgut
A2,, Steyr-Gleink, Austria
Luke Higgins1, Vasilios Karanikolas1, Cristian Marocico1, Alan Bell1, Peter
We experimentally demonstrate plasmonic mode coupling in a
large area, two-part fishnet structure made by nanoimprint lithography. Efficient polarization conversion in the visible was observed,
showing order of magnitude larger conversion efficiency than ordinary fishnets.
Parbrook2, Louise Bradley1
TUE4f-P-45
POSTER
2
Babes-Bolyai University, Cluj-Napoca, Romania
Tyndall National Institute, Lee Maltings, Prospect Row, Cork, Ireland
TUE4f-P-49
Metallic nano-resonators with three-fold rotational symmetry are
used to design various meta-atoms distributed in hexagonal lattices
separated by dielectric films. The resulted metamaterial slabs have negative effective refractive index for linearly or circularly polarized light.
Hsuan-Wei Liu1, Fan-Cheng Lin2, Shi-Wei Lin1, Jau-Yang Wu1, Sheng-Di Lin1,
Jer-Shing Huang2
1
Department of Electronics Engineering, National Chiao Tung University,
Hsinchu, Taiwan
2
TUE4f-P-46
POSTER
Resonant and Photoluminescent Properties of Single-crystalline
Aluminum Nanostructures on Semiconducting GaAs Substrate for
Ultra-Violet Plasmonics
Mircea Giloan1, Robert Gutt2, Gavril Saplacan1
Company for Applied Informatics, Cluj-Napoca, Romania
School of Physics, Trinity College Dublin, College Green, Dublin 2, Ireland
Metal nanoparticle arrays of silver nanoboxes fabricated by helium-ion lithography are used to demonstrate plasmon-enhanced
non-radiative energy transfer from an InGaN/GaN quantum well
to CdSe/ZnS quantum dots embedded in a layer of PMMA.
Plasmonic metamaterials based on metallic nano-elements with
three-fold rotational symmetry arranged in hexagonal lattices
1
1
2
Department of Chemistry, National Tsing Hua University, Hsinchu, Taiwan
We report the first use of single-crystalline aluminium nanostructures for ultraviolet plasmonics. Linear scattering and nonlinear
photoluminescence mapping on nanoslits arrays and nanoholes are
studied. Peculiar polarization characteristics of aluminum TPPL are
reported and explained.
POSTER
Gold nanosponges as novel plasmonic materials
Cynthia Vidal1, Calin Hrelescu1, Thomas A. Klar1, Dong Wang2,
Peter Schaaf2
27
TUESDAY SESSIONS
Lin Dong1, Calin Hrelescu1, Thomas A. Klar1, Michael Haslinger2, Jürgen
Tuesday Sessions
TUE4f-P-50
POSTER
Coupling of nanostructured metal with quantum dot have been
widely used in nanolasers, bio-sensing devices. We designed a tunanble resonance with stacking asymmetric split-ring metamaterial, and
fluorescence of quntum dot can be enhanced over 2.5.
Plasmonic Perfect Absorbers for Efficient Photocatalytic Processes
Charlene Ng1,2, Daniel Gomez1,2
1
CSIRO Australia, Clayton, Australia
2
Melbourne Nanofabrication Centre, Clayton, Australia
We demonstrate plasmonic metamaterials exhibiting near unity
absorption for the production of hot-electron photocurrents. We
discuss the potential application of these photocurrents in photocatalytic applications such as the decomposition of organic molecules
and water splitting. TUE4f-P-55
Characterization of chaotic photonic crystal cavities in the time and
spatial domain by ultrafast photomodulation spectroscopy
Roman Bruck1, Andrea Di Falco2, Andrea Fratalocchi3, Otto Muskens1
1
TUE4f-P-51
POSTER
Physics and Astronomy, University of Southampton, Southampton,
United Kingdom
POSTER
2
School of Physics and Astronomy, University of St Andrews, St Andrews,
Broadband Metasurfaces with Simultaneous Control of Phase
and Amplitude
United Kingdom
Mitchell Kenney , Lixiang Liu , Xueqian Zhang , Xiaoqiang Su , Ningning
Technology, Thuwal, Saudi Arabia
Xu3, Chunmei Ouyang2, Yunlong Shi4, Jiaguang Han2, Weili Zhang2,3,
Chaotic photonic crystal cavities feature multitudes of high-Q resonances and are thus of interest for sensing and telecommunication
applications. Employing ultrafast photomodulation spectroscopy, we
characterize individual resonance lifetimes and spatial characteristics
of such cavities.
1
1,4
1,2
3
2
Shuang Zhang1
1
School of Physics and Astronomy, University of Birmingham, Edgbaston,
United Kingdom
2
Center for Terahertz Waves and College of Precision Instrument and
Faculty of Electrical Engineering, King Abdullah University of Science and
Optoelectronics Engineering, Tianjin University, Tianjin 300072, China,
Tianjin, China
3
TUE4f-P-56
School of Electrical and Computer Engineering, Oklahoma State University,
Resonantly phase-matched Josephson junction traveling wave
parametric amplifier
Stillwater, Oklahoma 74078, USA, Stillwater, United States
TUESDAY SESSIONS
4
Institute of Solid State Physics, Shanxi Datong University, Datong 037009,
China, Datong, China
Kevin O'Brien1, Chris Macklin2, Irfan Siddiqi2, Xiang Zhang1,3
Metasurface gratings, with simultaneous phase and amplitude control, were used to manipulate the intensity of diffractive orders. The
design is simple, robust and broadband at ~1THz. Such work can
be utilised for engineering complex holograms.
1
2
Quantum Nanoelectronics Laboratory, Department of Physics, University of
California,, Berkeley, United States
Materials Sciences Division, Lawrence Berkeley National Laboratory,
Berkeley, United States
POSTER
We propose a technique to phase-match Josephson-junction traveling wave parametric amplifiers to achieve high gain over a broad
bandwidth for applications such as the multiplexed readout of quantum coherent circuits.
Optically controlled near-field THz diffraction
Rayko Stantchev1, Samuel Hornett1, Peter Hobson1, 2, Euan Hendry1
1
Nanoscale Science and Engineering Center, University of California,, Berkeley,
United States
3
TUE4f-P-52
POSTER
School of Physics, University of Exeter, Stocker Road, EX4 4QL, Exeter,
United Kingdom
2
QinetiQ Limited, Cody Technology Park, Ively Road, GU14 0LX, Farnborough,
TUE4f-P-57
United Kingdom
Semiconductors can be switched from dielectrics to metals
through electron-hole pair photoexcitation. Using a patterned
excitation-beam, we demonstrate that this principal can be
used to steer THz, and also be applied for subwavelength
THz imaging.
TUE4f-P-53
POSTER
Ultraviolet negative refraction and flat lensing of planar multilayer
metal-dielectric optical metamaterials
Ruben Maas, James Parsons, Ewold Verhagen, Albert Polman
Center for Nanophotonics, FOM-Institute AMOLF, Amsterdam, Netherlands
Double-periodic Ag/TiO2 multilayer metamaterials show an omnidirectional UV response with Bloch harmonics with both negative
and positive phase velocities. A flat lens geometry is presented with
excellent in- and out-of-plane focusing in the UV
POSTER
Contribution withdrawn.
TUE4f-P-58
TUE4f-P-54
POSTER
POSTER
The wideband spherical Luneburg lens based on an artificial-dielectric microwave metamaterial
Light emission enhancement of quantum dot luminescence via
stacking asymmetric split-ring metamaterials
Igor Meshkovskiy1, Valeri Akimov2, Pavel Belov1, Stanislav Glybovski1,
Tien Lin Shen, Tsung Sheng Kao, Hao Chung Kuo
Dmitry Filonov1
Department of Photonic & Institute of Electro-Optical Engineering, National
1
University ITMO, St. Petersburg, Russia
Chiao Tung University, Hsinchu, Taiwan
2
St. Petersburg state polytechnic university, St. Petersburg, Russia
28
Tuesday Sessions
TUE4f-P-63
We describe a novel wideband spherical Luneburg lens operating
at microwaves. The required gradient index variation is achieved
by employing the non-resonant metamaterial consisting of radial
closely-spaced thin dielectric rods.
POSTER
Tunable plasmonic properties of rounded object-arrays achievable
via interferometric illumination of colloid sphere monolayers
Áron Sipos, Anikó Somogyi, Gábor Szabó, Mária Csete
Department of Optics and Quantum Electronics, University of Szeged,
TUE4f-P-59
Szeged, Hungary
POSTER
Interferometric illumination of colloid sphere monolayers results in
complex plasmonic structures with tunable near-field and spectral
properties, which originates from their predesigned geometrical
parameters, as periodicities and nano-object properties.
Electrically Switched Active Metamaterials
Jamie Stokes
University of Bristol, Bristol, United Kingdom
Singapore University of Technology and Design, Singapore
Electrical current switching of 100nm of Ge2Sb2Te5 on glass. Optical reflectance is measured in both amorphous and crystalline
states and angular reflectance is shown for a FIB etched 1200nm
period grating.
TUE4f-P-64
POSTER
Two dimensional nano hole array for structured illumination optical imaging
Rainer Riesenberg, Paul Petruck
TUE4f-P-60
Institute of Photonic Technology, Jena, Germany
POSTER
Planar nano hole arrays are prepared. In case of a coherent illumination the light cones of the holes interfere and generate a spot pattern. The 3D interference pattern is used for structured illumination
optical microscopy.
The Aharonov-Bohm-Like Effect in Plasmonics
Vassili Savinov1, Nikolay I. Zheludev1,2
1
Optoelectronics Research Centre & Centre for Photonic Metamaterials,
University of Southampton, Southampton, United Kingdom
Centre for Disruptive Photonic Technologies, Nanyang Technological
TUE4f-P-65
University, Singapore, Singapore
By viewing plasmon waves in metallic waveguides as propagating
electric dipoles we show that according to laws of quantum mechanics they will acquire additional phase when propagating through
space with static magnetic field. TUE4f-P-61
Electromagnetics of Media with ε=μ
Rene Topf, Martin McCall, Paul Kinsler
Imperial College London, London, United Kingdom
Transformation Optics media are completely described by a direction/position-dependent refractive index that is independent of polarization. We demonstrate this for a cloak and for twist deformations,
showing that ε=µ is generally in-sufficient for impedance matching.
POSTER
Purcell Enhancement of Free-Electron Spontaneous Light Emission
Using Meta-surfaces
TUE4f-P-66
Jin-Kyu So1, Giorgio Adamo2, Kevin F. MacDonald1, Nikolay I. Zheludev1,2
1
Armin Jooshesh1, Afshin Jooshesh2
Centre for Disruptive Photonic Technologies, Nanyang Technological
University, Singapore, Singapore
1
Islamic Azad University, Robat Karim Branch, Tehran, Iran
We experimentally demonstrate that spontaneous light emission from free electrons can be enhanced using resonant meta-surfaces in much the same way as spontaneous emission
from atomic electrons is enhanced by placing them in resonant cavities.
2
Victoria University, BC, Victoria, Canada
TUE4f-P-62
TUE4f-P-67
FSO systems, are examined in this paper. Performance results
are presented using a channel model based on Beer’s law. These
show the potential of optical wireless systems for broadband wireless communications.
POSTER
Electrically Driven Coherent Surface Plasmon Polariton Source at
the Nanoscale
Black-body metamaterial lasers
Dmitry Fedyanin , Aleksey Arsenin , Alexey Krasavin , Anatoly Zayats
Andrea Fratalocchi1
1
1
1
2
POSTER
Changxu Liu1, Jianfeng Huang2, Silvia Masala3, Erkki Alarousu3, Yu Han2,
2
Laboratory of Nanooptics and Plasmonics, Moscow Institute of Physics and
1
Technology, Dolgoprudny, Russia
2
POSTER
Free Space Optics for High Speed Outdoor
Wireless Communications
Optoelectronics Research Centre & Centre for Photonic Metamaterials,
University of Southampton, Southampton, United Kingdom
2
POSTER
PRIMALIGHT, Faculty of Electrical Engineering; Applied Mathematics and
Computational Science, King Abdullah University of Science and Technology
Laboratory of Nanooptics and Plasmonics, Moscow Institute of Physics and
(KAUST), Thuwal, Saudi Arabia
Chemistry Department, Division of Physical Sciences and Engineering, King
Technology, Dolgoprudny, Russia
2
We propose a novel concept for the electrically driven coherent
surface plasmon polariton source integrated on a chip with the
mode volume less than 0.033λ3 and the threshold current density
below 1 kA/cm2.
Abdullah University of Science and Technology, Thuwal, Saudi Arabia
3
Solar and Photovoltaics Engineering Research Center, Division of Physical
Sciences and Engineering, King Abdullah University of Science and
Technology, Thuwal, Saudi Arabia
29
TUESDAY SESSIONS
2
Tuesday Sessions
We designed and realized e new type of laser based on a black-body
metamaterial composed of random metallic nanostructures with an
unconventional shape.
TUE4f-P-68
depends on plasmonic properties of nanoparticles, characteristics
of radiation and surrounding medium. The results of comparative
analysis of nanoparticle properties allow selecting their parameters
for photonic applications.
POSTER
TUE4f-P-72
Plasmon Induced Hot Carriers in Metallic Nanoparticles
Plasmonic Enhanced Schottky Detectors Based on Internal
Photoemission in Nano Pyramids for Near IR Regime
Alejandro Manjavacas, Jun Liu, Vikram Kulkarni, Peter Nordlander
Rice University, Houston, United States
We analyze the plasmon-induced hot carrier generation in metallic
nanoparticles using a simple theoretical model in which the electrons
are described as free particles and the plasmon dynamics is obtained
through Fermi’s “golden rule”.
TUE4f-P-69
Boris Desiaotv1, Ilya Goykhman1, Noa Mazurski1, Joseph Shappir1, Jacob
Khurgin2, Uriel Levy1
A Discrete Model of the Evanescent Light Emission from UltraThin Nanolayers.
Michael Gankin, Edward E. Tannous, Igor Lapsker, Alex Laihtman,
Hebrew University, Jerusalem, Israel
Johns Hopkins University, Baltimore, United States
TUE4f-P-73
Aaron Peled
TUESDAY SESSIONS
1
2
We demonstrate the detection of sub-bandgap light in silicon nano
pyramid using the process of internal photoemission in Schottky
diode. The quantum efficiency is enhanced by using metal coated
silicon nano pyramids. POSTER
HIT, Holon, Israel
Hybrid Plasmonic-Atomic Coupled Resonant System
A discrete model of the Differential Evanescent Light Intensity technique was developed to calculate nanolayers thicknesses from the
evanescent light intensity captured from optical waveguides.The
model was used for deposited ultra-thin Pd nanometric layers.
Liron Stern, Meir Grajower, Uriel Levy
TUE4f-P-70
POSTER
POSTER
Hebrew University, Jerusalem, Israel
We experimentally demonstrate the interaction between a Surface
Plasmon resonance and an atomic alkali vapor's resonance. The interplay between the atomic line structure and the palsmonic resonance
as function of the coupling conditions is demonstrated.
POSTER
Enhanced Radiative Rate from Single Quantum Emitter by
Plasmonic Grating Decoupler
TUE4f-P-74
POSTER
Arunandan Kumar , J.C. Weeber , A. Bouhelier , H. Frederich , F. Eloi , S.
Numerical method to study metamaterial composites
Buil2, X. Quélin2, M. Nasilowski3, B. Dubertret3, J.P. Hermier2,4, G. Colas
Takamichi Terao
des Francs1
Department of Electrical, Electronic and Computer Engineering, Gifu
1
1
1
1
2
1
Universite de Bourgogne, Dijon Cedex, France
University, Gifu, Japan
2
Groupe d’Etude de la Matière Condensée, Université de Versailles-Saint-
Metamaterial photonic crystals (MPC) composed of dispersive
left-handed materials and right-handed medium were investigated numerically. Suitable numerical techniques to analyze the electromagnetic properties of any dispersive metamaterial composites
were proposed. Quentin-en-Yvelines, CNRS UMR8635, 45 avenue des Etats-Unis, 78035,
Versailles, France
3
Laboratoire de Physique et d’Etude des Matériaux, CNRS UMR8213, ESPCI, 10
rue Vauquelin, 75231, Paris, France
4
Institut Universitaire de France, 103, bd Saint-Michel, 75005, Paris, France
We demonstrate spatially uniform enhanced radiative rate of single quantum dot (QD) emitter using grating decoupler on thin
gold and silver films by efficient extraction of light coupled to
surface plasmon.
TUE4f-P-75
POSTER
Plasmonic-Enhanced Photon Upconversion
by Triplet-Triplet-Annihilation
Shay Keren-Zur, Tal Ellenbogen
TUE4f-P-71
Tel Aviv University, Tel Aviv, Israel
POSTER
We study the use of large-scale fabrication of nano-plasmonic structures to increase the absorption in thin films of molecular complexes
that enable photon-upconversion by triplet-triplet annihilation and
improve the upconversion efficiency.
Applications of metallic nanoparticles for optical nanotechnology
depends on plasmonic properties of nanoparticles, characteristics
of radiation and surrounding medium. The results of comparative
analysis of nanoparticle properties allow selecting their parameters
for photonic applications.
TUE4f-P-76
Victor Pustovalov
POSTER
B.I.Stepanov Institute of Physics, National Academy of Sciences of
Focusing Coupled Surface Plasmons by Sector Angle of Curved
Plasmonic Gratings
Belarus, Belarus
Alireza Maleki1,2, Thanh Phong Vo1,2, James Downes2, Judith Dawes1,2
Applications of metallic nanoparticles for optical nanotechnology
1
Belarussian National Technucal University, Minsk, Belarus
30
ARC Centre of Excellence CUDOS, MQ Photonics Research Centre, Macquarie
Tuesday Sessions
TUE4f-P-77
University, Sydney NSW 2109, Australia, Tel.+61 2 9850 6367, alireza.maleki@
Near Field probing of Propagating Plasmons between
Metallic Nanocavities
mq.edu.au, Sydney, Australia
2
POSTER
MQ Photonics Research Centre, Department of Physics and Astronomy,
Macquarie University, Sydney NSW 2109, Australia, Sydney, Australia
Yehiam Prior, Roy Kaner, Yaara Bondy, Guy Shalem
We show that by increasing the sector angle of curved gratings the
lateral size of the coupled surface plasmons decreases allowing the
manipulation of the coupled surface plasmon waves for in-plane
nano-photonic architectures.
Weizmann Institute of Science, Rehovot, Israel
The plasmonic coupling between metallic nanocavities, as expressed
in near-field distributions and far-field transmission spectra, is
experimentally measured and theoretically calculated, with good
agreement between the two.
END OF THE POSTER SESSION
OLYMPIA ROOM  18:30  19:30
SEEFELD/TIROL ROOM  18:30  19:30
Oral Session - TUE5o - Topological Insulators
Oral Session - TUE5s - Sensing I
Chair: Mordechai (Moti) Segev, Physics Department, Technion, Haifa, Israel
Chair: Na Liu, MPI for Intelligent Systems, Stuttgart, Germany
TUE5o-I-01
TUE5s-I-01
18:30
Photonic network analogs of topological insulators
Mikael Käll, Mikael Svedendahl, Robin Ogier, Martin Wersäll, Si Chen, Nils
Centre for Disruptive Photonic Technologies and School of Physical and
Odenho Länk, Yurui Fang, Ruggero Verre, Aron Hakonen, Zhong-Jian Yang,
Mathematical Sciences, Nanyang Technological University, Singapore, Singapore
2
18:30
2D Plasmonic Metamaterials and Particle Layers for Sensing
and Spectroscopy
Yidong Chong1, Wenchao Hu1, Kan Wu2, Michael Pasek1, Perry Shum1
1
INVITED
Tomasz J. Antosiewicz, Peter Johansson, Timur Shegai
State Key Laboratory of Advanced Optical Communication Systems and
Networks, Department of Electronic Engineering, Shanghai Jiao Tong
Chalmers University, Göteborg, Sweden
University, Shanghai, China
Plasmon resonances in nanostructured metals couple strongly to
the dielectric surrounding the metal surface. Several examples of
how to utilize this effect to reveal the presence of organic molecules
will be discussed.
An electromagnetic analog of a topological insulator can be implemented with a microwave network of coaxial cables and directional
couplers. We experimentally realize a "topological pump", which
shows that the photonic bandstructure is topologically nontrivial.
TUE5o-O-02
ORAL
19:00
TUE5s-I-02
Excitation of hybridized Dirac plasmon modes in thin-film and disks
of topological insulators
Pedro Echenique
1
Yoshiaki Nishijima1, Yoshikazu Hashimoto1, Jacob Khurgin2, Hideki
, Javier Aizpurua
Fujiwara3, Lorenzo Rosa4, Saulius Juodkazis4
1,2
Donostia International Physics Center (DIPC), Paseo Manuel de Lardizabal 4,
20018, Donostia - San Sebastian, Spain
2
Materials Physics Center, CFM (CSIC-UPV/EHU) - Paseo Manuel de Lardizabal
5, 20018, Donostia - San Sebastian, Spain
3
IKERBASQUE, Basque Foundation for Science, 48011, Bilbao, Spain
Nanometre-scale systems made of topological insulators support
acoustic and optical plasmon modes with very different charge and
spin properties. We analyze the controlled excitation of these modes
by selecting proper illumination and geometry.
TUE5o-O-03
ORAL
1
Yokohama University, Yokohama, Japan
2
Johns Hopkins, Baltimore, United States
3
Hokkaido University, Sapporo, Japan
4
Swinburne University of Technology, Hawthorn, Australia
An intricate relationship between the intensity of surface-enhanced
Raman scattering (SERS) and the optical extinction are revealed. The
observed unusual trend of SERS intensity decrease with the increase
of extinction is explained analytically and numerically.
Departamento de Física de Materiales, Facultad de Químicas UPV/EHU,
Apartado 1072, 20018, Donostia - San Sebastian, Spain
4
19:00
Scaling rules for Surface Enhanced Raman Scattering
Mohamed Poyli1,2, Ilya Nechaev1, Ruben Esteban1,2, Vyacheslav Silkin1,3,4,
1,2,3
INVITED
19:15
Optical Access to Topological-Insulator Surface States
with Plasmonics
Grisha Spektor, Meir Orenstein, Alex Hayat
Technion - Israel Institute of Technology, Haifa, Israel
We propose employing surface plasmon-polaritons to confine
electromagnetic field onto topological-insulator spin-helical
31
TUESDAY SESSIONS
INVITED
Tuesday Sessions
surface-states. We designed and implemented square plasmonic lenses which support spin-like angular momentum carrying plasmons
shaped as array of localized counter rotating fields.
OLYMPIA ROOM  BREAK  19:30  19:40
OLYMPIA ROOM  19:40  20:40
Plenary Session - TUE6o - Plenary Talk 3
TUE6o-PL-01
PLENARY
19:40
Hybrid nanophotonics: Coupling light to other degrees of freedom
at the nanoscale
Albert Polman
AMOLF, Amsterdam, Netherlands
Hybrid nanophotonics is a new research field in which light is coupled to other degrees of freedom such as
nanoscale mechanical motion, acoustic phonons, electron spins,
excitons, and molecular vibrations, and offers great new science
and applications.
TUESDAY SESSIONS
NOTES
32
Wednesday Sessions
WEDNESDAY, 7 JANUARY 2015
OLYMPIA ROOM  08:30  09:30
Plenary Session - WED1o - Plenary Talk 4
WED1o-PL-01
PLENARY
08:30
Nonlinearity, Nonreciprocity, Time-Modulation and Gain: New
Venues for Metamaterials and Plasmonics
Andrea Alù
The University of Texas at Austin, Austin, United States
We discuss how new concepts, such as electronic transitions, gain
and time-varying media, combined with the strong wave-matter interactions in metamaterials and plasmonics, may provide
new directions for metamaterial technology and nanophotonic systems.
FOYER  COFFEE BREAK  09:30  09:45
OLYMPIA ROOM  09:45  11:15
SEEFELD/TIROL ROOM  09:45  11:15
Oral Session - WED2o - Graphene and 2D Materials I
Oral Session - WED2s - Nanomechanics & Forces
Chair: Cesare Soci, Nanyang Technological University,
Chair: Mikhail Noginov, Norfolk State University, Norfolk, United States
Singapore, Singapore
INVITED
09:45
WED2s-O-01
ORAL
Two-Dimensional Optics with Graphene Plasmons Launched by
Metal Antennas
Mechanisms for Mechanical Metastability and Poisson’s Ratio
Transitions in Metamaterial Systems
Rainer Hillenbrand2,5, P. Alonso - González1, A.Y. Nikitin1, F. Golmar1,
Matthew Berwind1,2, Felix Schiebel1, 2, Moubine Al Kotob1,3,
S. Vélez , J. Chen , F. Casanova , L.E. Hueso , A. Centeno , A. Pesquera ,
Christoph Eberl1,2
A. Zurutuza3, G. Navickaite4, F. Koppens4
1
1
1
2
2
3
3
09:45
Fraunhofer Institute for Mechanics of Materials, Freiburg im
1
CIC nanoGUNE and UPV/EHU, San Sebastian, Spain
Breisgau, Germany
2
IKERBASQUE, Basque Foundation for Science, Bilbao, Spain
2
Albert Ludwig University of Freiburg, Freiburg im Breisgau, Germany
3
Graphenea SA, Donostia - San Sebastián, Spain
3
University Pierre and Marie Curie, Paris, France
4
ICFO-Institut de Ciéncies Fotoniques, Castelldefels, Barcelona, Spain
Reliable mechanical behavior is critical to any functional metamaterial system. This work focuses on the design, simulation, and testing
of mechanisms that allow for mechanical metastability and Poisson’s
Ratio transformations in metamaterials.
5 CIC nanoGUNE and UPV/EHU, Donostia - San Sebastián, Spain
Near-field microscopy is employed to demonstrate the focusing and
refraction of propagating graphene plasmons launched by tailored
metal antennas, constituting an essential step for the development
of future graphene plasmonic circuits.
WED2o-O-02
ORAL
10:15
WED2s-O-02
Liquid-like Plasmonic Waves on Graphene
ORAL
10:00
Baile Zhang
Measurement and feedback control of a nanomechanical oscillator
at its thermal decoherence rate
Division of Physics and Applied Physics, School of Physical and Mathematical
Nicolas Piro, Dalziel Wilson, Vivishek Sudhir, Ryan Schilling, Amir Ghadimi,
Sciences, Nanyang Technological University, Singapore, Singapore
Tobias Kippenberg
Centre for Disruptive Photonic Technologies, Nanyang Technological
Ecole Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland
University, Singapore, Singapore
We demonstrate an opto-nanomechanical sensor capable of resolving its zero-point motion in a time-scale comparable to its thermal
decoherence. Together with radiation-pressure feedback, we cool
the oscillator down to an occupation of ~ 5 phonons.
We predict that many hydrodynamic wave phenomena have counterparts in graphene plasmonics, including plasmonic splashing and
V-shaped ship-wakes excited by a swift electron perpendicularly
impacting upon and moving parallel above a graphene monolayer, respectively.
33
WEDNESDAY SESSIONS
WED2o-I-01
Wednesday Sessions
WED2s-O-03
ORAL
10:15
Conventional optical tweezers with a quantum push
Mathieu Juan, Carlo Bradac, Benjamin Besga, Reece Roberts, Matt Van
Breugel, Gabriel Molina-Terriza, Thomas Volz
Department of Physics & Astronomy, Macquarie University & ARC Centre for
D
LE
Engineered Quantum Systems, Macquarie
NCEL University, Sydney, Australia
CA
Conventional tweezers and atom optical manipulation have been
two very distinct trapping regimes. In this work we demonstrate
the possibility to combine both regimes by using nano-diamond
containing nitrogen-vacancy centres.
WED2o-O-03
ORAL
10:30
WED2s-O-04
Optical tuning and photochemistry of gap plasmons within atomically-thick CdSe and MoS2 nanocavities
1
1
1
2
Mohamed Farhat1, Muhammad Amin1, Sebastien Guenneau2,
Hakan Bagci1
2
NanoPhotonics Centre, Cavendish Laboratory, University of Cambridge,
Cambridge, United Kingdom
2
Center for Materials Physics, CSIC-UPV/EHU and DIPC, Paseo Manuel de
WEDNESDAY SESSIONS
King Abdullah University of Science and Technology, Thuwal, Saudi Arabia
2
Aix-Marseille Université, CNRS, Centrale Marseille, Institut Fresnel,
We propose a novel concept that uses mechanical and electronic
properties of graphene to efficiently couple light to surface plasmon polaritons. Applications in bio-chemical-sensing and design
of broadband near-perfect field absorbers are discussed. Plasmonically-coupled metal nanoparticles with nanometer-sized gaps
produce extremely-localised and strongly enhanced optical fields. We
tune gaps and use the fields to detect smallest traces of substances in
the gap using spectroscopy and surface-enhance Raman scattering.
INVITED
1
Marseille, France
Lardizabal 5, Donostia - San Sebastian, Spain
WED2o-I-04
10:30
Generation of graphene surface plasmons and their applications
Jan Mertens , Daniel Sigle , Lars Herrmann , Christos Tserkezis , Javier Aizpurua
1
ORAL
10:45
WED2s-O-05
ORAL
10:45
Highly confined low-loss plasmons in graphene-boron nitride heterostructures
Molecular Optomechanics: amplification of vibrations in SERS
Achim Woessner1, Mark B. Lundeberg1, Yuanda Gao2, Alessandro Principi3,
École Polytechnique Fédérale de Lausanne, Lausanne, Switzerland
Pablo Alonso-González4, Matteo Carrega5,6, Kenji Watanabe7, Takashi
Describing molecular-plasmonic systems studied in SERS as optomechanical
Taniguchi7, Giovanni Vignale3, Marco Polini5, James Hone2, Rainer
cavities, we unravels a hitherto
Hillenbrand4,8, Frank H.L. Koppens1
overlooked mechanism: backaction force of the plasmon on the
vibration. Under precise conditions it could lead to coherent amplification of molecular vibration.
1
ICFO – The Institute of Photonic Sciences, Castelldefels (Barcelona), Spain
2
Department of Mechanical Engineering, Columbia University, New York, NY, United States
3
Department of Physics and Astronomy, University of Missouri, Columbia, MO,
Philippe Roelli, Christophe Galland, Nicolas Piro, Tobias Kippenberg
United States
4
CIC nanoGUNE Consolider, Donostia-San Sebastián, Spain
5
NEST, Istituto Nanoscienze - CNR and Scuola Normale Superiore, Pisa, Italy
6
SPIN-CNR, Genova, Italy
7
National Institute for Materials Science, Tsukuba, Japan
8
Ikerbasque, Basque Foundation for Science, Bilbao, Spain
In this work we investigate plasmons in high-quality graphene boron
nitride heterostructures. We find unprecedented low damping and
strong field confinement of graphene plasmons and identify and characterize the main damping mechanisms in these heterostructures. WED2s-O-06
ORAL
11:00
Quantum nonlocal effects in individual and interacting
graphene nanoribbons
Iván Silveiro1, Juan Manuel Plaza Ortega1, Javier García de Abajo1, 2
1
ICFO-Spain, Castelldefels, Spain
2
ICREA, Barcelona, Spain
We show that doped graphene narrow ribbons support near-infrared
plasmons with important quantum nonlocal corrections. Remarkably, the removal of single-atom rows from extended graphene is
enough to separate ribbons that strongly interact with incident light.
34
Wednesday Sessions
BREAK  11:15  11:30
OLYMPIA ROOM  11:30  13:00
SEEFELD/TIROL ROOM  11:30  13:00
Oral Session - WED3o - Graphene and 2D Materials II
Oral Session - WED3s - Tunable and
Deconfigurable Nanosystems
Chair: Albert Polman, FOM Institute AMOLF, Amsterdam, Netherlands
Chair: Masaya Notomi, NTT Basic Research Laboratories,
Kanagawa, Japan
WED3o-I-01
INVITED
11:30
WED3s-I-01
INVITED
11:30
Folding of two dimensional materials : structural symmetry and
interlayer coupling
Tunable Molecular Plasmons
Shiwei Wu
Rice University, Houston, United States
Fudan University, Shanghai, China
We demonstrate both experimentally and theoretically that charged
polycyclic aromatic hydrocarbons support intense, narrow-band
absorption in the visible regime with extreme electrical tenability,
highly analogous to plasmonic resonances of much larger systems. Alejandro Manjavacas
Folding of two dimensional materials can make artificial bilayers
with different structural symmetry and tunable interlayer coupling.
Here I will present our recent work on folded MoS2 bilayers with
enhanced valley- and spin- polarizations. WED3o-O-02
ORAL
12:00
WED3s-O-02
ORAL
Light Emission from Plasmonic h-BN Tunnel Junctions
Nano-Opto-Mechanical Nonlinear Plasmonic Metamaterials
Markus Parzefall1, Achint Jain1, Zachary J. Lapin1, Takashi Taniguchi2, Kenji
Jun-Yu Ou1, Eric Plum1, Nikolay I. Zheludev1, 2
Watanabe , Palash Bharadwaj , Lukas Novotny
1
2
1
1
Optoelectronics Research Centre and Centre for Photonic Metamaterials,
1
Photonics Laboratory, ETH Zürich, Zürich, Switzerland
University of Southampton, Southampton, United Kingdom
2
National Institute for Material Science, Tsukuba, Japan
2
The interaction of electrons with strong electromagnetic fields in
plasmonic MIM tunnel junctions (Au-h-BN-Au) is investigated. Nanoscopic voids mediate the conversion of electron energy to photons,
which results in polarized and resonantly enhanced light emission.
12:00
Centre for Disruptive Photonic Technologies, Nanyang Technological
University, Singapore, Singapore
We demonstrate megahertz-bandwidth modulation of light with
light at the milliwatt power level with nano-optomechanical metamaterials fabricated on a nanoscale elastic silicon nitride membrane.
The origin of nonlinearity is in the light-induced electromagnetic
near-field forces.
INVITED
12:15
WED3s-O-03
ORAL
Extreme Plasmonics in Atomic-Scale Structures
Electrically tunable nanostructures and metamaterials
Javier Garcia de Abajo
Ivan Shishkin1, Andrey Bogdanov1,2, Andrey Malyshev2,3
ICFO-The Institute of Photonic Sciences, Castelldefels, Spain
1
IFMO University, St. Petersburg, Russia
ICREA-Institucio Catalana de Reserca i Estudis Avançats, Barcelona, Spain
2
Ioffe Physical-Technical Institute, St. Petersburg, Russia
We will review various classes of atomic-scale materials capable
of sustaining plasmons over different spectral ranges, exhibiting
excellent electro-optical tunability, and featuring strong plasmon
confinement and field enhancement.
3
Universidad Complutense de Madrid, Madrid, Spain
WED3o-O-04
WED3s-O-04
ORAL
We show that plasmon resonances of arrays of nanoparticles, nanowires, nanoholes, etc. fabricated in the vicinity of an ITO surface
can be efficiently tuned by an electrostatic field, manifesting line
shifts of tens of nm.
12:30
Plasmon-Enhanced Nonlinear Wave Mixing in
Graphene Nanoislands
1
2
ORAL
12:30
Active mid-IR plasmonics: tunable and switchable chirality
Xinghui Yin1, Martin Schäferling1, Ann-Katrin Michel2, Matthias Wuttig2,
Joel D. Cox , F. Javier de Abajo
1
12:15
Thomas Taubner2, Harald Giessen1
2
ICFO-Institut de Ciencies Fotoniques, Castelldefelds (Barcelona), Spain
1
University of Stuttgart, Stuttgart, Germany
ICREA-Institució Catalana de Recerca i Estudis Avançats, Barcelona, Spain
2
RWTH Aachen University, Aachen, Germany
We investigate optical wave mixing in doped graphene nanoislands, for which we find strong enhancement of the nonlinear
response when two optical fields are simultaneously coupled
with plasmons.
We present a tunable and switchable chiral metamaterial in the midIR spectral region.
35
WEDNESDAY SESSIONS
WED3o-I-03
Wednesday Sessions
WED3o-O-05
ORAL
12:45
WED3s-O-05
ORAL
12:45
Non-linear Optical Excitation of Surface Plasmons in Graphene
Optically reconfigurable dielectric metamaterials
Thomas Constant, Samuel Hornett, Euan Hendry
Qian Wang1,2, Edward T. F. Rogers1,3, Behrad Gholipour1, Tapashree Roy1,
Electromagnetic Materials Group, Department of Physics, University of Exeter,
Nikolay I. Zheludev1,4
Exeter, United Kingdom
1
We present optical wave-mixing measurements designed to excite surface plasmons in planar graphene. A large enhancement of
non-linear signal in regions of high density of states suggests a strong
coupling to propagating plasmons in graphene.
University of Southampton, Highfield, Southampton SO17 1BJ,
Optoelectronics Research Centre and Centre for Photonic Metamaterials,
United Kingdom
2
Institute of Materials Research and Engineering, Agency for Science,
Technology and Research (A*STAR), 3 Research Link, Singapore
117602, Singapore
3
Instiute for Life Sciences, University of Southampton, Highfield, Southampton
SO17 1BJ, United Kingdom
4
Centre for Disruptive Photonic Technologies, Nanyang Technological
University, Singapore 637371, Singapore
We demonstrate femtosecond-laser-induced raster writing and
erasing of dielectric metamaterial patterns using the phase-change
mechanism in chalcogenide films. The technology is demonstrated
by creating dynamically re-focusable and chromatically correctable
lenses and diffraction gratings.
BREAK  13:00  16:15
OLYMPIA ROOM  16:15  17:00
WED4o - Technology Talk by Raith
FOYER  POSTER SESSION  17:00  18:30
POSTER SESSION  WED5F  POSTER SESSION II
We demonstrate room temperature strong coupling between individual nanoparticles and J-aggregates. Strong transition dipole moment
of excitons in combination with weakly radiating nanoparticle plasmons facilitates observation of the effect, as supported by extensive
numerical simulations.
Chair: Harry Atwater, California Institute of Technology, Pasadena,
United States
WEDNESDAY SESSIONS
Jarlath McKenna, IOP Publishing, Bristol, United Kingdom
WED5f-P-01
POSTER
The Dy3+ Doped YPO4 Nanocrystals for Photohyperthermia In the
Near IR Spectral Range
WED5f-P-03
1
POSTER
Scalar Potential Formulation for Bianisotropic Metamaterials
and Associated Boundary Conditions for a Local Model of
Biased Graphene
Yurii (Yury) Orlovskii (Orlovskiy) , Alexander Vanetsev , E.V. Samsonova ,
2
1
K. Keevend1, I. Sildos1, A.V. Ryabova2, I.D. Romanishkin2, K.K. Pukhov2,
A.V. Popov1, 2, V.B. Loschenov2
1
University of Tartu, Tartu, Estonia
Michael Havrilla
2
General Physics Institute RAS, Moscow, Russia
Air Force Institute of Technology, Wright Patterson Air Force Bas, United States
We develop novel approach to laser-induced hyperthermia in the
near IR biological tissue transparency spectral window for cancer
treatment based on multiphonon relaxation of optical excitation in
the Dy3+ doped YPO4 nanocrystals.
A scalar potential formulation for bianisotropic media is developed
along with boundary conditions that include a bianisotropic material
interface and a local model of biased graphene. The considerable
simplification and physical insight gained are discussed.
WED5f-P-02
WED5f-P-04
POSTER
Strong coupling between individual plasmonic nanoparticles and
molecular excitons
POSTER
The unified lasing conditions for the plasmonic nanoshell based SPASER
Vitaliy Pustovit1, Arkadiy Chipouline2, Tigran Shahbazyan3,
Gulis Zengin, Martin Wersäll, Tomasz Antosiewicz, Mikael Käll,
Augustine Urbas1
Timur Shegai
1
Chalmers University of Technology, Gothenburg, Sweden
WPAFB, United States
36
1Materials and Manufacturing Directorate, Air Force Research Laboratory,
Wednesday Sessions
2
Institute of Applied Physics, Friedrich Schiller University Jena, Jena, Germany
3
Jackson State University, Jackson, United States
A detailed investigation of Fano resonances in H-like configured
gold nanorods is presented. Strong scattering attenuation and large
figure of merit (FOM) are achieved for rod lengths smaller than
wavelength, in NIR.
We present the unified theory of response of plasmonic nanoshells
assisted by optical gain media. We demonstrate that cooperative
energy exchange between SPASER modes is responsible for spasing
and loss compensation process in laser resonator. Controlling Sub-nm Gaps in Plasmonic Dimers Using Graphene
POSTER
Jan Mertens1, Jeremy Baumberg1, Anna Eiden2, Andrea Ferrari2, Christos
A nanolens-type enhancement and collective hybridization of interacting modes in gold nanodimers
Tserkezis3, Javier Aizpurua3
Vitaliy Pustovit, Sushmita Biswas, Richard Vaia, Augistine Urbas
Cambridge, United Kingdom
Materials and Manufacturing Directorate, Air Force Research Laboratory,
2
WPAFB, United States
United Kingdom
In this paper we explore optical response of gold nanoparticle pairs
(dimers). Our calculations reveal optical periodic behavior dependent on the separation between nanoparticles. This response increases
for dimers with large difference between particle sizes.
3
WED5f-P-06
1
POSTER
Materials Physics Center, Paseo Manuel de Lardizabal 5, Donostia - San
WED5f-P-10
POSTER
Approximated Propagation Analysis of Multimode Interferometers
Based on Segmented Waveguides
Department of Physics, Indian Institute of Technology Kanpur,
Ana Julia Oliveira1,2, Vitaly Rodriguez-Esquerre1
Kanpur, India
Photonics Research Centre, University of Quebec in Outaouais,
Gatineau, Canada
3
Cambridge Graphene Centre, University of Cambridge, Cambridge,
We use graphene to create stable subnanometre junctions in plasmonic dimers. Strong coupling between a highly localised gap plasmon and coupled dimer plasmon is observed for gaps below 0.4nm
resulting in a rich spectral signature.
Saurabh Mani Tripathi1, Wojtek Bock2, Predrag Mikulic2, Garima Mishra3
2
NanoPhotonics Centre, Cavendish Laboratory, University of Cambridge,
Sebastian, Spain
Rapid and label-free detection of Cyanobacterial toxin microcystin-LR using ultra-sensitive fiber-optic long-period grating
1
POSTER
1
Federal University of Bahia, Salvador, Brazil
2
Federal University of Vale Sao Francisco, Juazeiro, Brazil
The coupling length of multimode-interferometers based on segmented
waveguides has been calculated by using the finite-element and approximated methods, and the wave propagation was obtained for several
geometric configurations in the optical telecommunication frequencies.
Department of Structural Biology, Weizmann Institute of Science,
Rehovot, Israel
Ultra-sensitive fiber-optic biosensor is developed for quantitative detection of microcystin-LR molecules in drinking water. Immobilizing
microcystin-LR on gold-coated dual-resonance long-period-gratings
the sensor can detect microcystin-LR concentration as small as 5 nM
with good experimental accuracy
WED5f-P-11
POSTER
Imaging and steering emission from nanoantenna arrays
WED5f-P-07
Klas Lindfors1,2,3, Daniel Dregely3, Markus Lippitz2,3,4, Nader Engheta5,
POSTER
Michael Totzeck6, Harald Giessen3
Nanocomposite Films with Controlled Dielectric and Magnetic
Properties for Spatial Transformation Applications
Yunqi Wang, Dmitry Isakov, Patrick Grant
1
Department of Chemistry, University of Cologne, Cologne, Germany
2
Max Planck Institute for Solid State Research, Stuttgart, Germany
3
4th Physics Institute and Research Center SCoPE, University of Stuttgart,
University of Oxford, Department of Materials, Parks Road, Oxford,
Stuttgart, Germany
United Kingdom
4
Department of Physics, University of Bayreuth, Bayreuth, Germany
We introduce a new approach to manufacture nanocomposite films
with tailored electromagnetic properties by spray deposition, which
provides a flexible format material for use in spatial transformation
approaches to metamaterials devices.
5
Department of Electrical and Systems Engineering, University of
WED5f-P-08
Pennsylvania, Philadelphia, United States
6
Corporate Research & Technology, Carl Zeiss AG, Oberkochen, Germany
Phase control allows controlling the emission direction of an array
of nanoantennas. Here, we image and steer an optical wireless link
between two nanoantenna arrays and achieve unidirectional emission from a metasurface using phase engineering.
POSTER
Fano Resonances in Coupled Nanorods Forming H-like Structures
Manuel Gonçalves1, Armen Melikyan2, Hayk Minassian3, Taron Makaryan4,
WED5f-P-12
Othmar Marti1
POSTER
1
Ulm University – Inst. Experimental Physics, Ulm, Germany
2
Russian-Armenian (Slavonic) University, Yerevan, Armenia
An ultralow mode volume, tunable and scannable FabryPérot microcavity
3
Yerevan Physics Institute, Yerevan, Armenia
Hrishikesh Kelkar1, Daqing Wang1,2, Björn Hoffmann1, Silke Christiansen1,3,
4
Yerevan State University - Radiophysics Department, Yerevan, Armenia
Stephan Götzinger2,1, Vahid Sandoghdar1,2
37
WEDNESDAY SESSIONS
WED5f-P-05
WED5f-P-09
Wednesday Sessions
WED5f-P-17
1
Max Planck Institute for the Science of Light, Erlangen, Germany
2
Friedrich Alexander University Erlangen-Nuremberg, Erlangen, Germany
3
Helmholtz Center Berlin for Materials and Energy, Berlin, Germany
Giving Freedom and Physical Meaning to the Effective Parameters
of Metamaterials for all Frequencies
A tunable and scannable microcavity is fabricated and characterized.
An ultrasmall mode volume offers a Purcell factor above 25 even with
metallic coatings. We study the influence of a single nanoparticle on
the microcavity resonance.
WED5f-P-13
POSTER
Christopher Andrew Dirdal, Johannes Skaar
Department of Electronics and Telecommunications, Norwegian University of
Science and Technology, NO-7491, Trondheim, Norway
Metamaterial parameters exhibit freedom from dispersion constraints owing to their loss of physical meaning outside a restricted
subset of (ω,k). We characterize this freedom, and allocate alternative
meaning to ε_eff and μ_eff.
POSTER
Gold Strip Gratings for Surface Enhanced Infrared Spectroscopy
Tobias W.W. Maß1, Vu Hoa Nguyen1, Andreas Buchenauer1,
WED5f-P-18
Uwe Schnakenberg1
1
Institute of Physics (IA), RWTH Aachen University, Aachen, Germany
2
Institute of Materials in Electrical Engineering 1, Aachen, Germany
Directional Nanoplasmonic Antennas for Self-Referenced
Refractometric Molecular Analysis
We show that gold strip gratings enable a wide tuning range
in the mid-IR spectral range and thus a high applicability for Surface Enhanced Infrared Absorption Spectroscopy
(SEIRAS).
WED5f-P-14
Martin Wersäll, Ruggero Verre, Mikael Svedendahl, Peter Johansson,
Mikael Käll, Timur Shegai
Chalmers University of Technology, Göteborg, Sweden
Localized surface-plasmon resonance sensors are usually dependent on
spectrometers, a stable light source, and a position tracing technique. Instead we present a self-referenced single-wavelength sensing scheme based
on highly directional radiation patterns from asymmetric nanodimers.
POSTER
Low loss surface-phonon-polariton resonators for mid-infrared
nanophotonics
WED5f-P-19
Peining Li, Tao Wang, Thobias W.W. Mass, Thomas Taubner
We experimentally demonstrate several low loss surface-phonon-polariton resonators based on various polar crystals, such
as silicon carbide and quartz, which enable abundant mid-infrared nanophotonic applications from surface enhanced
infrared absorption spectroscopy to narrowband thermal
emission.
Juan Sebastian Totero1, Andrey E. Miroshnichenko2, Yuri S. Kivshar2,
Andrea Fratalocchi1
1
PRIMALIGHT, Faculty of Electrical Engineering; Applied Mathematics and
Computational Science, King Abdullah University of Science and Technology
(KAUST), Thuwal 23955-6900, Saudi Arabia
2
WEDNESDAY SESSIONS
POSTER
Unidirectional emission from spherical nanoparticles: ab-initio
simulations and spatial dynamics of a core-shell spaser
Institute of Physics (IA), RWTH Aachen University, Aachen, Germany
WED5f-P-15
POSTER
Nonlinear Physics Center, Research School of Physics and Engineering,
Australian National University, Canberra, ACT 0200, Australia
POSTER
We study the dynamics of a spaser by coupling ab-initio simulations
and thermodynamic analysis. Spasing action exhibits different phases, which produce rotational evolution that can be used to achieve
unidirectional emission from spherical nanoparticles.
Transition between Metamaterial and Photonic Crystal Behavior
in Arrays of Dielectric Rods
Filip Dominec, Christelle Kadlec, Hynek Němec, Petr Kužel,
Filip Kadlec
Institute of Physics, Academy of Sciences of the Czech Republic, Prague 8,
WED5f-P-20
Czech Republic
An array of dielectric rods can be regarded either as a metamaterial or as a photonic crystal. We explain when negative index of
refraction can be achieved, based on the electromagnetic field nodal
planes topology.
POSTER
Saturation effects in finite-size spasers: bistability, fields and cross-sections
Nikita Arnold1, Klaus Piglmayer1, Alexander Kildishev2, Thomas Klar1
1
Institute of Applied Physics, Johannes Kepler University, Linz, Austria
2
Birck Nanotechnology Center, School of ECE, Purdue University, West
Lafayette, United States
WED5f-P-16
A spaser is a nano-optical light generator, which utilizes plasmonic
modes of metallic nano-particles (MNP).
We study its saturation behavior within purely electrodynamic
framework similar to that of a conventional laser.
POSTER
Efficient gap surface plasmon excitation at telecommunication
wavelengths
Michael G. Nielsen, Sergey I. Bozhevolnyi
Department of Technology and Innovation, University of Southern Denmark,
WED5f-P-21
Odense M, Denmark
We demonstrate gap surface plasmon waveguides, optimized for
normal incident Gaussian beam excitation, with 29% coupling efficiency and 10µm mode propagation length when the gap size is ten
times smaller than the free-space wavelength.
POSTER
Electrodynamics of a spaser: shape, size, modes and threshold minimization
Nikita Arnold, Calin Hrelescu, Thomas Klar
Institute of Applied Physics, Johannes Kepler University, Linz, Austria
38
Wednesday Sessions
Spaser generation thresholds in metallic nano-particles (MNP) augmented by gain material are investigated analytically and numerically. Electrodynamic considerations show, that they are similar for
different MNP shapes and multipolar modes, and always exceed
material-specific minimum.
Max Planck Institute for the Science of Light, Erlangen, Germany
4
Imperial College London, London, United Kingdom
We show experimentally a 4-fold reduction of the intensity required
to achieve sub-diffraction resolution in a stimulated-emission-depletion microscope, in good agreement with theory. This shows that the
theoretical prediction of a 100-fold intensity-reduction is achievable.
POSTER
WED5f-P-26
On the question of compatibility of Maxwell equations and density
matrix formalism
POSTER
Phase-Sensitive Plasmonic Metamaterials for Biosensing
Arkadi Chipouline
Andrey Aristov, Andrey Kabashin
Institute of Applied Physics, Friedrich Schiller University Jena,Max-Wien-Platz
UMR7341 CNRS - AMU Laboratoire LP3, Marseille, France
1, D-07743 Jena, Germany, Jena, Germany
We extend the original concept of phase-sensitive plasmonic biosensing to new metamaterial-based architechtures, which can provide a much improved sensing response, a better cost-efficiency and
additional functionalities (e.g., SERS option).
A usually accepted approach of combination of Maxwell equation
with density matrix formalism leads to a paradox for the radiative
loss description. This is rooted into the basic principles from which
Maxwell equations are elaborated. WED5f-P-27
WED5f-P-23
POSTER
A Model for Spasers and Dielectric Nanolasers:Strategies for
Lower Thresholds
Relaxation time mapping of single quantum dots and substrate
background fluorescence
Günter Kewes1, Rogelio Rodriguez-Oliveros2, Kathrin Höfner2, Alexander
Arkadi Chipouline1, Ivan Mukhin2, Stefan Fasold1, Reinhard Geiss1, Andrea
Kuhlicke1, Oliver Benson1, Kurt Busch2,3
Steinbrück1, Rachel Grange1, Thomas Pertsch1
1
1
Institute of Applied Physics, Abbe Center of Photonics, Friedrich-Schiller-
Humboldt Universität zu Berlin, Institut für Physik, AG Nanooptik,
Berlin, Germany
Universität Jena, Max-Wien-Platz 1, 07743, Jena, Germany, Jena, Germany
2
POSTER
2
ITMO University, Kronverkskiy pr. 49, 197101, St.Petersburg, Russia,
Humboldt Universität zu Berlin, Institut für Physik, AG Theoretische Optik und
Photonik, Berlin, Germany
Max-Born Institut, Berlin, Germany
St.Petersburg, Russia
3
We experimentally investigated the role of background signal in time
resolved photoluminescence experiments with single quantum dots
on substrates, acting as a hot-spot enabling the plasmon supported
fluorescence enhancement of gold.
An analytic model for spasers and dielectric nanolasers is presented.
Mie theory allows calculating realistic gain relaxation rates (so far
underestimated). We derive strategies for threshold reduction and
explore silicon for purely dielectric nanolasers.
WED5f-P-24
WED5f-P-28
POSTER
POSTER
Eigen modes in silicon nanotoroidal structures
Laplace–Fourier Analysis and Instabilities of an Active Slab
Arkadi Chipouline3, Andrey Evlyukhin1, Urs Zywietz1, M. Steinert3, D. Lehr3,
Hans Olaf Hågenvik, Johannes Skaar
R Geiss3, S. Fasold3, A. Miroshnichenko2, B. Chichkov1, B. Kley3, T. Pertsch3
Department of Electronics and Telecommunications, Norwegian University of
1
Laser Zentrum Hannover e.V., Hollerithallee 8, D-30419 Hannover, Germany,
Science and Technology, Trondheim, Norway
We present a framework for determining the occurrence and type
of instabilities in an active slab. The analysis provides insight into
the possible problems associated with the monochromatic and plane
wave limits in gain media. Hannover, Germany
2
Nonlinear Physics Centre, Research School of Physics and Engineering,
The Australian National University, Canberra ACT 0200, Australia,
Canberra, Australia
3
IAP/FSU Jena, Albert-Einstein Str. 15, 07745, Jena, Germany, Jena, Germany
We demonstrate experimentally for the first time eigen modes in
silicon nanotoroidal structures in visible wavelengths. The structures
have been designed and created using recently developed laser printing technology followed by FIB or HIM processing.
WED5f-P-29
POSTER
Nanoscale polymorphism and conduction in an organic
transistor device
Bert Nickel1,2, Fritz Keilmann1,3, Christian Westermeier1,2, Sergiu Amarie3,
WED5f-P-25
Adrian Cernescu3
POSTER
Nanoparticle-assisted STED, theory and experimental
demonstration
2
4
3
Christopher Dunsby4, Mark Neil4, Paul French4, Stefan Maier4
1
Ben-Gurion University, Beer Sheva, Israel
2
Institut Neel, CNRS, Grenoble, France
Ludwig-Maximilians-Universität, Fakultät für Physik, München, Germany
Nanosystems Initiative Munich, München, Germany
3
Neaspec GmbH, Martinried, Germany
By investigating thin film pentacene with infrared s-SNOM and
scanning photocurrent microscopy, we observe the unexpected and
spontaneous nanoscopic nucleation and growth of a complementary
and structurally different molecular crystal phase.
Yonatan Sivan , Yannick Sonnefraud , Hugo Sinclair , Matthew Foreman ,
1
1
2
39
WEDNESDAY SESSIONS
WED5f-P-22
3
Wednesday Sessions
WED5f-P-30
POSTER
WED5f-P-34
POSTER
Localized Fluorescent Excitation using Enhanced Third
Order Nonlinear Effects in Gold Nanomatryoshka; A
Theoretical Investigation
Plasmons in inhomogeneously doped graphene nanostructures
1
ICFO-Spain, Castelldefels, Spain
Pezhman Sasanpour , , Raheleh Mohammadpour
2
ICREA, Barcelona, Spain
1 2
1
Iván Silveiro1, Javier García de Abajo1, 2
3
We study plasmons in graphene nanodisks including the effect of inhomogeneity in the doping profile distribution. Specifically, charged
disks containing a fixed amount of additional carriers and neutral
disks exposed to an external point charge.
Department of Medical Physics and Biomedical Engineering, Faculty of
Medicine, Shahid Beheshti University of Medical Sciences, Tehran, Iran
2
Computational Nano-Bioelectromagnetics Research Group, School of Nano-
Science, Institute for Research in Fundamental Sciences (IPM), Tehran, Iran
3
Institute for Nanoscience and Nanotechnology, Sharif University of
Technology, Tehran, Iran
WED5f-P-35
Localized excitation of fluorescent tags based on enhancement
in third order nonlinear effects (FWM-THG) in gold nanomatryoshka structure (Au-SiO2-Au) has been proposed and investigated theoretically using nonlinear finite difference time
domain method.
POSTER
Multipolar resonances in quasistatic metal nanoparticles induced
trough gain coupling over the amplifyng threshold
Alessandro Veltri1, Arkadi Chipouline2, Ashod Aradian3, 4
1
Colegio de Ciencias e Ingeniería, Universidad San Francisco de Quito,
Cumbaya, Ecuador
2
Institute of Applied Physics, Friedrich Schiller University Jena, Jena, Germany
3
CNRS, CRPP, UPR 8641, F33600, Pessac, France
Contribution withdrawn.
4
Univ. Bordeaux, CRPP, UPR 8641, F33600, Pessac, France
WED5f-P-32
We model localized plasmons in metallic nanoparticles coupled to
an active gain medium showing how, in the emission regime, plasmonic field shifts from a dipolar to a multipolar shape even in the
quasi static regime.
WED5f-P-31
POSTER
POSTER
Strong coupling studies with surface lattice resonance
Aaro Väkeväinen1, Lei Shi2, Tommi Hakala1, Robert Moerland3, Heikki
Rekola1, Jani-Petri Martikainen1, Antti-Pekka Eskelinen1, Dong-Hee Kim4,
WED5f-P-36
Päivi Törmä1
1
Infinite Lifetime States with Quantized Energy in a Core-shell
Plasmonic Nanoparticle
COMP Centre of Excellence, Department of Applied Physics, Aalto University,
FI-00076 Aalto, Finland, Espoo, Finland
2
Sylvain Lannebère, Mário Silveirinha
Department of Physics, Key Laboratory of Micro & Nano Photonic Structures
(MOE) and Key Laboratory of Surface Physics, Fudan University,Shanghai
University of Coimbra, Department of Electrical Engineering - Instituto de
200433, P. R. China, Shanghai, China
Telecomunicações, Coimbra, Portugal
3
We show here how to perfectly trap a quantized “bit” of electromagnetic radiation inside an open core-shell particle with a core
made of a third-order non-linear material and a shell made of an
epsilon-near-zero material.
Department of Imaging Physics, Faculty of Applied Sciences, Delft
University of Technology,Lorentzweg 1, NL-2628 CJ, Delft, The Netherlands,
Delft, Netherlands
WEDNESDAY SESSIONS
POSTER
4
Department of Physics and Photon Science, Gwangju Institute of Science and
Technology, Gwangju 500-712, Korea, Gwangju, Korea, Republic of (South)
We study the light-matter interactions between plasmonic nanoparticle arrays and organic fluorescent molecules in both
weak and strong coupling regimes. Spatial coherence properties
of the system are studied throughout the weak to strong coupling crossover. WED5f-P-33
WED5f-P-37
Surface Plasmon Dependence on the Electron Density Profile at
Metal Surfaces
Christin David1, F. Javier García de Abajo1,2
POSTER
Guanghui Yuan1, Stefano Vezzoli1, Charles Altuzarra1, Edward Rogers2,
Christophe Couteau1, Cesare Soci1, Zexiang Shen1, Nikolay Zheludev1,2
ICFO - The Institute of Photonic Sciences, Castelldefels, Spain
2
ICREA Research Professor at ICFO, Castelldefels, Spain
Centre for Disruptive Photonic Technologies, Nanyang Technological
University, Singapore 637371, Singapore, Singapore, Singapore
2
1
Electron spill-out at metal surfaces is shown to have a dominant
effect relative to spatial dispersion, as determined by studying the
surface response in the hydrodynamic model, adapted to include
inhomogeneous ground-state electron densities.
Single-Photon Super-Oscillation
1
POSTER
WED5f-P-38
Optoelectronics Research Centre & Centre for Photonic Metamaterials,
POSTER
University of Southampton, Southampton, UK, Southampton,
Asymmetric dot dimers – optical properties and interactions
United Kingdom
Nina Meinzer, Alastair D. Humphrey, William L. Barnes
We demonstrate that the wave-function of a single photon can be
squeezed into a hot-spot smaller than half wavelength thus demonstrating the paradoxical super-oscillatory behaviour of quantum
systems discussed by Aharonov, Berry and others.
University of Exeter, Exeter, United Kingdom
We present a study of the rich optical behaviour of the dark (grey)
modes exhibited by asymmetric dot dimers and how this behaviour
is modified upon interaction between dimers.
40
Wednesday Sessions
WED5f-P-39
POSTER
WED5f-P-43
POSTER
Enhanced reflective- and absorptive properties of graphene by
exciting plasmons
Narrow Surface Lattice Resonances of Plasmonic Particle Pairs
Tobias Wenger , Mikael Fogelström , Jari Kinaret
University of Exeter, Exeter, United Kingdom
1
1
1
Alastair Humphrey, Nina Meinzer, William Barnes
2
We demonstrate through experiment that narrow surface lattice
resonances (Q>110) can be produced in regular arrays of asymmetric
silver particle pairs. We explain our results using a simple analytical
coupled-dipole model.
Chalmers University of Technology, Department of Microtechnology and
Nanoscience (MC2), Gothenburg, Sweden
2
Chalmers University of Technology, Department of Applied Physics,
Gothenburg, Sweden
We present a theoretical investigation of the properties of light
scattering of a grated or ungrated graphene surface in vacuum. We
find that plasmons strongly influence the reflective and absorptive
properties of the surface.
WED5f-P-44
POSTER
Nonlinear Optical Properties of Self Assembled Gold Structures
Concita Sibilia1, Alessandro Belardini1, Marco Centini1, Grigore Leahu1,
WED5f-P-40
Joseph W. Haus2, andrew Sarangan2
POSTER
1
Dipartimento di Scienze di Base e Applicate per l’Ingegneria Sapienza
Self-Induced Transparency and Superradiance in
Quantum Metamaterials
Università di Roma,Roma, Italy, Roma, Italy
G.P. Tsironis1,2,3, Z. Ivic4, N. Lazarides1,2
Dayton,Ohio,USA, Dayton, United States
1
2
The second harmonic generation from a regular array of tilted gold nanowires on a silicon substrate has been investigated. The break of symmetry has been put into evidence by means of polarization dependent
Crete Center for Quantum Complexity and Nanotechnology, Department of
Physics, University of Crete, P. O. Box 2208, 71003, Heraklion, Greece
2
Department of Electrical and Computer Engineering,University of Dayton
Institute of Electronic Structure and Laser, Foundation for Research and
Technology--Hellas, P.O. Box 1527, 71110, Heraklion, Greece
3
Department of Physics, School of Science and Technology, Nazarbayev
WED5f-P-45
University, 53 Kabanbay Batyr Ave., Astana 010000,, Astana, Kazakhstan
4
POSTER
Contribution withdrawn.
University of Belgrade, "Vinca" Institute of Nuclear Sciences, Laboratory for
Theoretical and Condensed Matter Physics, P.O.Box 522, 11001, Belgrade, Serbia
Superconducting qubits are currently preferred for building quantum
computers. We demonstrate theoretically the emergence of coherent
optical phenomena in superconducting quantum metamaterials.
Their experimental confi- rmation may open a new path to potentially powerful quantum computing
WED5f-P-46
Plasmonic nanowire-cored silicate fiber spaser
Duc Minh Nguyen1, 3, Behrad Gholipour1, Long Cui1, Venkatram Nalla1,
Daniel Hewak2, Nikolay Zheludev1,2, Cesare Soci1, 3
1
POSTER
3D information from 2D scans in a camera-based scanning microscope 3D information from 2D scans in a camera-based scanning microscope
1
Medical University of Innsbruck, Innsbruck, Austria
University of Colorado, Boulder, United States
2
Optoelectronics Research Centre, University of Southampton, United Kingdom
3
CINTRA CNRS/NTU/THALES, UMI 3288, Singapore, Singapore
We demonstrate a new concept of fiber spaser enabled by surface
plasmon polaritons (SPPs) on the surface of a single gold nanowire
integrated in a silicate optical fiber.
Monika Ritsch-Marte1, Alexander Jesacher1, Rafael Piestun2
2
Centre for Disruptive Photonics Institute, Nanyang Technological University,
Singapore, Singapore
WED5f-P-47
We present a scanning microscope with a double-helix mask in the
emission pathway and synthetic pinholes on a sCMOS camera which
can acquire 3D information from a single 2D scan.
POSTER
Nonlinear Plasmonics in Nonperturbative
Hydrodynamic Description
Pavel Ginzburg1,2, Alexey Krasavin1, Paulia Segovia1, Gregory A. Wurtz1,
WED5f-P-42
Anatoly V. Zayats1
POSTER
Multiphoton Characterization of Two-Dimensional
Layered Materials
Mehravar2, Robert Norwood2, Nasser Peyghambarian1,2, Harri Lipsanen1,
Khanh Kieu2
Aalto University, Department of Micro and Nanosciences, Espoo, Finland
2
University of Arizona, College of Optical Sciences, Tucson, AZ, United States
King's College London, London, United Kingdom
2
ITMO University, Saint Petersburg, Russia
A time-domain implementation of the hydrodynamic model for conduction electrons in metals has been developed to enable non-perturbative studies of nonlinear coherent interactions between light
and plasmonic nanostructures. Results suggest reconsideration of
existing hydrodynamic approaches.
Antti Säynätjoki1, Lasse Karvonen1, Juha Riikonen1, Wonjae Kim1, Soroush
1
1
Graphene and other 2D layered materials are studied with multiphoton microscopy. The method is rapid and it enables simultaneous characterization of second- and third-order nonlinearities and
multiphoton excited luminescence.
WED5f-P-48
POSTER
Circularly Polarised Quantum Dot Emission via Coupling with Chiral
Ag Nanostructures
41
WEDNESDAY SESSIONS
WED5f-P-41
POSTER
Wednesday Sessions
John Gough1, David McCloskey1, Jose Caridad2, Vojislav Krstic3, Marcus
Institute of Optics, Information and Photonics, University of Erlangen-
Müller4, Nikolai Gaponik4, Louise Bradley1
Nuremberg, Erlangen, Germany
1
Large area planar optically active plasmonic-photonic materials
have been fabricated via a bottom-up approach. Chiral lattices
of asymmetric metal semishells convert the polarization owing
to interplay between collective plasma excitations and cavity resonances.
School of Physics and Centre for Research on Adaptive Nanostructures and
Nanodevices, University of Dublin, Trinity College, Dublin, Ireland
2
Department of Micro- and Nanotechnology, Technical University of
Denmark, Ørsteds Plads, Lyngby, Denmark
3
Cluster of Excellence Engineering of Advanced Materials, Friedrich-
Alexander Universitat Erlangen-Nürnberg, Nägelsbachstrasse 49b 91052,
Erlangen, Germany
4
WED5f-P-52
Physikalische Chemie, TU Dresden, Helmholtzstraße 10, 01069,
POSTER
Dresden, Germany
Enhanced random lasing with plasmonic nanostars
Circularly polarised quantum dot emission was achieved through
dipole coupling with chiral Ag nanostructures. The chiral nanostructures act as antennae thus influencing the directionality and
polarisation of the quantum dot emission.
Johannes Ziegler, Martin Djiango, Christian Wörister, Battulga Munkhbat,
WED5f-P-49
Cynthia Vidal, Calin Hrelescu, Thomas A. Klar
Institute of Applied Physics, Johannes Kepler University Linz, Altenberger Str.
69, Linz, Austria
Here, we demonstrate random lasing with star-shaped gold nanoparticles in a dye-doped gain medium. Star-shaped nanoparticles
are more efficient for random lasing than conventional nanoparticle
shapes, such as spheres and rods.
POSTER
Utilising curvature for surface wave devices
Rhiannon Mitchell-Thomas1, Simon Horsley1, Ian Hooper1,
Oscar Quevedo-Teruel2
1
WED5f-P-53
Electromagnetic and Acoustic Materials Group, Department of Physics and
λ/30-Resolution in Subsurface Imaging with a Near-Field
Optical Microscope
Astronomy, University of Exeter, Exeter, United Kingdom
2
School of Electrical Engineering, KTH Royal Institute of Technology, SE-10044,
Stockholm, Sweden., Stockholm, Sweden
Lena Jung, Benedikt Hauer, Thomas Taubner
Using geometrical optics it is possible to create a link between flat and
curved 2D geometries with the addition of refractive index profiles.
We show examples of this technique including surface wave cloaks
and lenses.
I. Institute of Physics (IA), RWTH Aachen University, Aachen, Germany
WED5f-P-50
We present a study on lateral resolution and signal strength in subsurface imaging with an infrared optical near-field microscope. A
spectroscopic investigation combines the research areas of subsurface
imaging and superlensing.
POSTER
WED5f-P-54
Enhanced and polarized emission from single CdSe/CdS nanocrystals coupled to a 1D gold grating decoupler
WEDNESDAY SESSIONS
POSTER
POSTER
Fabien Eloi1, Hugo Frederich1, Damien Canneson1, Stéphanie Buil1, Xavier
Effect of electron-phonon coupling on the plasmon lifetimes
in nanographene
Quélin1, Arunandan Kumar2, Alexandre Bouhelier2, Jean-Claude Weeber2,
José Ramón Martínez Saavedra1, Francisco Javier García de Abajo1,2
Gérard Colas des Francs , Michel Nasilowki , Clémentine Javaux , Benoît
1
ICFO Institut de Ciències Fotòniques, Castelldefels, Spain
Dubertret3, Jean-Pierre Hermier1,4
2
ICREA-Institució Catalana de Recerca i Estudis Avançats,
2
1
3
3
Barcelona, Spain
Groupe d’Etude de la Matière Condensée, Université de Versailles-Saint-
We study the plasmon-phonon coupling in graphene nanoislands
through a perturbative RPA expansion and conclude that it contributes with a few millielectronvots to the plasmon width, which
increases with both the island size and doping.
Quentin-en-Yvelines, CNRS UMR8635, 45 avenue des Etats-Unis, 78035
Versailles, France, Versailles, France
2
Laboratoire Interdisciplinaire Carnot de Bourgogne (ICB), UMR 6303 CNRS,
Université de Bourgogne, 9 Avenue Savary, BP 47870, 21078 Dijon Cedex,
France, Dijon, France
3
Laboratoire de Physique et d’Etude des Matériaux, CNRS UMR8213, ESPCI, 10
WED5f-P-55
rue Vauquelin, 75231 Paris, France, Paris, France
4
First Evidence of Near-Infrared Photonic Bandgap in a RodConnected Diamond Structure
Institut Universitaire de France, 103, bd Saint-Michel, 75005 Paris, France,
Paris, France
Thick shell colloidal CdSe/CdS nanocrystals are coupled to a 1D
gold grating. The emission of a single NC is enhanced and nearly
completely polarized. Results are in good agreement with the theoretical model.
WED5f-P-51
POSTER
Lifeng Chen, Mike Taverne, Xu Zheng, Jia-De Lin, Martin Lopez-García,
Ying-Lung Daniel Ho, John Rarity
University of Bristol, Department of Electrical and Electronics Engineering,
Bristol, United Kingdom
We show partial photonic bandgaps in rod-connected diamond
structures fabricated by 3D lithography. We see good agreement
between optical transmission/reflection experiments and simulations. Interesting polarisation conversion effects seen in reflection
are discussed.
POSTER
Optically Active Self-Assembled Plasmonic-Photonic Crystals
Sergei Romanov, Oleksandr Zhuromskyy, Ulf Peschel
42
Wednesday Sessions
POSTER
2
MTA-SZTE Supramolecular and Nanostructured Materials Research Group,
Hybrid surface plasmons in graphene metasurfaces
University of Szeged, Szeged, Hungary
Iurii Trushkov1, Ivan Iorsh1, Pavel Belov1, Yuri Kivshar2
Eigenmodes, standing and propagating modes were investigated on
arrays of linear and wavy aggregates of cysteine-coated silver nanospheres at the maxima of absorption spectra determined numerically.
The effect of grating coupling were also studied.
1
NRU ITMO, Saint-Petersburg, Russia
2
Australian National University, Canberra, Australia
We study electromagnetic properties of a metasurface formed by
coupled array of graphene nanoribbons. We show that surface conductivity tensor has principal components of different sign and the
system supports Dyakonov like plasmonic surface modes.
WED5f-P-57
WED5f-P-61
POSTER
Infrared surface phonon polariton modes in SiC triangular nanoantenna arrays
POSTER
Alexander Giles1, Chase Ellis1, Joseph Tischler2, Joshua Caldwell2
Spectroscopic characterization and material analysis of linearly
polarized optical antennas
1
NRC Postdoctoral Fellow residing at United States Naval Research
Laboratory, Washington, DC, United States
Manuel Messner, Govinda Lilley, Karl Unterrainer
2
TU Wien, Institut für photonik, Wien, Austria
United States
We use rotating polarization spectroscopy to determine the effect
that changes in material composition of a nano antenna as well as
its environment have on the central wavelength and Q-factor of the
corresponding LSPR.
4H-SiC nanoantenna arrays were found to support a variety of surface phonon polariton modes which were consistent with theoretical
simulations. Modulation of antenna size and gap allowed for independent control of individual modes.
WED5f-P-58
WED5f-P-62
POSTER
United States Naval Research Laboratory, Washington, DC,
Control of the hotspot localization by plasmonic antennas
Spaser in Quantum Regime
Valentina Giorgis1, Rodrigo Lima2, Andrey Malyshev3,4
Mark Stockman
POSTER
1
ISEN, Université Catholique, Lille, France
Center for Nano-Optics and Department of Physics and Astronomy, Georgia
2
Instituto de Física, Universidade Federal de Alagoas, Maceió, Brazil
State University, Atlanta, GA, United States
3
A. F. Ioffe Physico-Technicla Institute, St. Petersburg, Russia
4
Universidad Complutense de Madrid, Madrid, Spain
We consider latest results on spaser as ultrafast quantum generator
and amplifier of nanoplasmonic fields, ultrabright nanolabel, efficient
nanosensor, and electrical spaser in the extreme quantum regime
and graphene spaser.
The position of both electromagnetic field and temperature hotspots
in the vicinity of plasmonic antennas (comprising linear arrays of
metal nanoparticles of different sizes) can be tuned by angles of
incidence of the excitation.
WED5f-P-59
WED5f-P-63
Broadband near-infrared spectroscopy of organic molecules on
compact photonic devices
POSTER
Optimization of plasmonic structure integrated single-photon
detector designs to enhance absorptance
Alina Karabchevsky1, Giuseppe Buscemi2, Muhammad Imran Mustafa
Abdul Khudus1, Pavlos Lagoudakis2, Michalis Zervas1, James Wilkinson1
Mária Csete , Gábor Szekeres , Balázs Bánhelyi , András Szenes , Tibor
1
Optoelectronics Research Centre, Southampton, United Kingdom
Csendes , Gábor Szabó
2
School of Physics and Astronomy, Southampton, United Kingdom
1
2
1
1
2
1
1
We demonstrate a nanophotonic approach for broadband near-infrared spectroscopy of organic molecules. Waveguides, tapered
microfibers and gold nanoparticles enable ultra-sensitive miniature spectrometers for highly sensitive detection in ultra-low sample volumes.
Department of Optics and Quantum Electronics, University of Szeged,
Szeged, Hungary
2
Department of Computational Optimization, University of Szeged,
Szeged, Hungary
Plasmonic structure integrated superconducting nanowire single-photon detector (SNSPD) configurations were optimized for 1550
nm p-polarized light illumination to maximize absorptance. Orientation dependent NbN absorptance, spectral sensitivity and dispersion
characteristics were investigated to find optimal configurations.
WED5f-P-60
WED5f-P-64
Alexey Lyasota, Benjamin Dwir, Pascal Gallo, Clement Jarlov, Bruno Rigal,
POSTER
Alok Rudra, Elyahou Kapon
Ecole Polytechnique Fédérale de Lausanne, Lausanne, Switzerland
We focus on photonic crystal L7 cavities containing four quantum
dots positioned at precise locations corresponding to electric field
maxima of the PhC mode. We observed simultaneous coupling of
all QDs with the same mode.
Mária Csete , Anikó Somogyi , Anikó Szalai , József Balázs , Edit Csapó ,
1
1
1
2
Imre Dékány2
1
POSTER
Integration of site- and spectrum -controlled pyramidal quantum
dots with photonic crystal membrane cavities
Plasmonic modes on arrays of nanoparticle aggregates
1
POSTER
Department of Optics and Quantum Electronics, University of Szeged,
Szeged, Hungary
43
WEDNESDAY SESSIONS
WED5f-P-56
Wednesday Sessions
WED5f-P-65
POSTER
Here we report the experimental study of the broadband loss mitigation in a system composed by the
dispersion of plasmonic mesocapsules in a solution with
gain molecules.
Lithography-free Fabrication of Different-sized and Disordered
Metal Nanoparticles for Gap Plasmonic Absorption Band-broadning
Minjung Choi, Kyoungsik Kim
Optics and Metamaterials Laboratory, School of Mechanical Engineering, Yonsei
University, 50 Yonsei-ro, Seodaemun-gu,, Seoul, Korea, Republic of (South)
WED5f-P-70
In energy harvesting strategy, it is important that the field enhancement rise within an active layer. We fabricated Ostwald ripened gold
nanoparticles by thermal annealing for the application of broadband
gap plasmonic field enhanced absorber.
WED5f-P-66
POSTER
Optical activity in a chiral-ferromagnetic-plasmonic metamaterial
John G. Gibbs1, Andrew G. Mark1, Peer Fischer1,2, Sahand Eslami1,2
1
Max Planck Institute for Intelligent Systems, Stuttgart, Germany
2
Institute for Physical Chemistry of University of Stuttgart, Stuttgart, Germany
We present studies of nano-sized helical metal structures and show
how combining plasmon resonances, structural chirality and magnetic ordering affect the optical properties of natural, magnetic, and
magneto-chiral dichroism.
POSTER
Large-area SERS active 3D nanostructured films with multiple hot-spots
Hyeon-Ho Jeong1, Insook Kim1,2, Andrew Mark1, Tung-Chun Lee1,
Peer Fischer1,2
WED5f-P-71
1
Max Planck Institute for Intelligent Systems, Stuttgart, Germany
2
Institute for Physical Chemistry, University of Stuttgart, Stuttgart, Germany
Enhancement and collimation of spontaneous emission of a single
nitrogen vacancy centre via an integrated plasmonic device
We introduce a method for growing 3D plasmonic nanofilms on the
wafer-scale and show that these films exhibit SERS enhancements
whose response can be tuned by shaping their 3D geometries.
WED5f-P-67
Niko Nikolay, Günter Kewes, Oliver Benson
Humboldt Universität zu Berlin, Berlin, Germany
Theoretical and experimental studies of an experiment combining
a plasmonic bullseye antenna with a needle-like plasmonic antenna
coupled to a nitrogen vacancy centre for collimation and a dramatic
enhancement of spontaneous emission will be presented.
POSTER
The investigation of transmission and reflection coefficients in multi
layer periodical metamaterial systems with Micro- SRR structure
Elahe Amani
WED5f-P-72
Bahram Jazi, Isfahan, Iran
WEDNESDAY SESSIONS
In this paper we study the reflection and transmission coefissient of
an electromagnetic wave passed through split ring resonator metamaterial slab using consecutive reflection method. the geometic
parameters of SRRs change in sinusoidal manner.
WED5f-P-68
POSTER
Plasmonically Induced Circular Dichroism in DNA assembled metamolecules
Xiaoyang Duan, Xibo Shen, Na Liu
Max Planck Institute for Intelligent Systems, Stuttgart, Germany
We theoretically calculate and experimentally verify the interaction
between chiral plasmonic metamolecules and achiral gold nanoparticle. The dramatical effect on chiral metamolecules offers a unique
possibility to investigate the mechanism behind the induced CD. POSTER
Polarization Swichable Near Field Plasmonic Beam Shaping by
Optical Nanoantennas
Ori Avayu, Tal Ellenbogen, Itai Epstein, Elad Eisner
WED5f-P-73
Tel Aviv University, Tel Aviv, Israel
We demonstrate experimentally the use of optical nanoantennas
for polarization and wavelength controlled plasmonic beam shaping. Switchable dual foci plasmonic lens and an on/off switching of
self-accelerating beams are demonstrated with a 50% switching ratio. WED5f-P-69
POSTER
POSTER
Induced chirality through coupling between artificial chiral plasmonic molecules and achiral plasmonic antennas
Song Yue1, Xinghui Yin2, Na Liu1
1
Max Planck Institute for Intelligent Systems, Stuttgart, Germany
2
4th Physics Institute and Research Center SCOPE, University of Stuttgart,
Stuttgart, Germany
POSTER
We experimentally and theoretically investigate the induced chirality
effects between artificial chiral plasmonic molecules and achiral
plasmonic antennas at optical frequencies.
Loss Mitigated Collective Resonances in Gain-Assisted
Plasmonic Materials
Melissa Infusino1, Antonio De Luca2, Alessandro Veltri1, C. Vázquez
Vázquez3, M. Correa Duarte3, Rakesh Dhama2, Giuseppe Strangi4
1
WED5f-P-74
Colegio de Ciencias e Ingeniería, Universidad San Francisco de Quito, Quito,
POSTER
2
University of Calabria, Department of Physics, Rende, Italy
Towards nanoscale light-matter interfaces with defect centers coupled to integrated dielectric nanostructures
3
Department of Physical Chemistry, University of Vigo, Vigo, Spain
Martin Zeitlmair1, Markus Weber1,2, Lars Liebermeister1, Florian Böhm1,
4
Case Western Reserve University10600 Euclid Avenue, Cleveland,
Niko Heinrichs1, Philipp Altpeter1, Arno Rauschenbeutel3, Oliver Benson4,
Ecuador, Quito, Ecuador
Harald Weinfurter1,2
United States
44
Wednesday Sessions
1
WED5f-P-76
Ludwig-Maximilians-Universität München, Fakultät für Physik,
POSTER
Ultra-dense Transparent Conductive Oxide Metamaterials
München, Germany
Simon Gregory1, Yudong Wang1,2, Otto Muskens1
2
Max-Planck-Institut für Quantenoptik, Garching, Garching, Germany
3
Atominstitut, Technische Universität, Wien, Austria
1
Physics & Astronomy, University of Southampton, Southampton, United Kingdom
4
Institut für Physik, Humboldt Universität, Berlin, Germany
2
Nano Group, University of Southampton, Southampton, United Kingdom
The evanescent optical coupling of a single NV-center to the strongly
confined mode of a tapered optical fiber showed a coupling efficiency
of 10%. Using integrated slot waveguides, the coupling efficiency can
be improved significantly. Transparent conducting oxides are a promising infrared alternative
plasmonic material. Here, we build and characterise split-ring metamaterials made from indium tin oxide, and find them to be more
sub-wavelength compared to corresponding gold metamaterials.
WED5f-P-75
WED5f-P-77
POSTER
Plasmonic intensity modulators based on graphene
Fabrication of plasmonic nanoantennas by femtosecond direct
laser writing lithography - effects of plasmonic coupling on
SEIRA enhancement
Daniel Ansell , Ilya P. Radko , Zhanghua Han , Sergey I. Bozhevolnyi ,
1
2
2
2
Alexander N. Grigorenko1
1
University of Manchester, Manchester, United Kingdom
2
University of Southern Denmark, Odense, Denmark
POSTER
Frank Neubrech, Shahin Bagheri, Ksenia Weber, Harald Giessen
4th Physics Insitute and Research Centre SCOPE, University of Stuttgart,
We present different configurations of graphene-based plasmonic
waveguide modulators and discuss their potential for maximizing
the modulation depth. We show that properly chosen waveguide
configuration and optimized geometry can provide state-of-the-art
modulation at low gate voltages.
Stuttgart, Germany
We utilized direct laser writing for the fabrication of plasmonic nanoantennas resonant in the mid-infrared spectral range to investigate
the impact of plasmonic coupling between neighbouring antennas
on the enhancement in surface-enhanced infrared spectroscopy.
END OF THE POSTER SESSION
OLYMPIA ROOM  18:30  20:30
SEEFELD/TIROL ROOM  18:30  20:30
Oral Session - WED6o - Quantum and Applications
Oral Session - WED6s - Transformation Optic
Chair: Vladimir Shalaev, Purdue University, West Lafayette, United States
Chair: Baile Zhang, Nanyang Technological University,
Singpore, Singapore
INVITED
18:30
WED6s-I-01
Coherence and Transparency in rf SQUID Metamaterials
INVITED
18:30
Controlling Light in Transformation Optical Waveguides
Steven M. Anlage, Melissa Trepanier, Daimeng Zhang
Hui Liu1, Chong Sheng1, Shining Zhu1, Dentcho Genov2
University of Maryland, College Park, United States
1
We study ways (experimentally, analytically and numerically) to
characterize and enhance the collective coherence and transparency
of richly nonlinear superconducting rf SQUID metamaterials in the
microwave regime.
Nanjing, China
2
National Laboratory of Solid State Microstructures & Department of Physics,
College of Engineering and Science, Louisiana Tech University, Ruston,
United States
A controlling laser produces inhomogeneous refractive index inside a waveguide through the photothermal effect. The trajectory
of waveguide beam is continuously tuned. This work provides an
approach toward optical control of transformation optical devices.
NOTES
45
WEDNESDAY SESSIONS
WED6o-I-01
Wednesday Sessions
WED6o-O-02
ORAL
19:00
WED6s-O-02
ORAL
19:00
Toroidal qubits: naturally-decoupled quiet artificial atoms
Beaming of Microwave Surface Waves
Alexander Zagoskin1,2, Arkadi Chipouline3, Evgeny Il’ichev4, Robert
Joseph A. Dockrey, Ben J. Q. Woods, Ben Tremain, Ian R. Hooper, Simon A.
Johansson , Franco Nori
R. Horsley, J. Roy Sambles, Alastair P. Hibbins
2
1
5,6
Physics Department, Loughborough University, Loughborough LE11 3TU,
University of Exeter, Exeter, United Kingdom
Highly collimated microwave surface wave beams are observed
in experiment, supported on a variety of very thin (68 μm thick)
metafilms. The number of self-collimated beams is governed by the
symmetry of the structure.
United Kingdom, Loughborough, United Kingdom
2
iTHES Research Group, RIKEN, Saitama 351-0198, Japan, Saitama, Japan
3
Institute of Applied Physics, Abbe Center of Photonics, Friedrich-Schiller-
Universit¨at Jena, Max-Wien-Platz 1, 07743 Jena, Germany, Jena, Germany
4
Leibnitz Institute of Photonic Technology, P.O. Box 100239, D-07702 Jena,
Germany, Jena, Germany
5
Center for Emergent Matter Science, RIKEN, Saitama 351-0198, Japan, Saitama, Japan
6
Physics Department, The University of Michigan, Ann Arbor, Michigan,
48109-1040, USA, Ann Arbor, United States
We propose a superconducting toroidal flux qubit design naturally
protected from ambient noise. The superconducting toroidal design
exhibits properties similar to an effective two-level scheme. A toroidal
qubit laser based on this design is also considered.
WED6o-O-03
ORAL
19:15
WED6s-I-03
Plasmonic Modulators Using Quantum Well Electroabsorption
INVITED
19:15
Gordon Keeler, Kent Geib, Rohan Kekatpure, Jeffrey Cederberg, Ting Luk,
Broadband Perfect Metamaterial Cloak Designed with
Transformation Optics
Darwin Serkland, S. Parameswaran, Joel Wendt
Runren Zhang, Hongsheng Chen
Sandia National Laboratories, Albuquerque, United States
Zhejiang University, Hangzhou, Zhejiang, China
We demonstrate plasmonic modulators using semiconductor-based
electroabsorption. Our devices combine metal waveguides with InAlGaAs quantum wells for operation at 1550nm. Electrically-controlled
modulation of the propagating surface plasmon mode is realized via
the quantum-confined Stark effect.
By using transformation optics method, a three dimensional, full
polarization, and nearly perfect carpet cloak is designed and experimental demonstrated in a broad band.
WED6o-O-04
ORAL
19:30
WEDNESDAY SESSIONS
Coherent perfect absorption in silicon waveguides by plasmonic
nano-antennas
Roman Bruck, Otto Muskens
Physics and Astronomy, University of Southampton, Southampton SO17 1BJ,
UK, Southampton, United Kingdom
The performance of plasmonic nanoantennas on SOI wire waveguides as coherent perfect absorbers is explored. The proposed structure can be utilized for ultracompact all-optical switches, modulators,
sensing or for increasing nonlinear effects.
WED6o-O-05
ORAL
19:45
WED6s-O-04
ORAL
Adiabatic elimination based modulation for densely integrated nano-photonics
Plasmon-Polaron Coupling in Organic Semiconductors
Haim Suchowski, Michael Mrejen, Taiki Hatakeyama, Chihhui Wu, Liang
Adamo1,2, Harald Giessen2,3, Cesare Soci1,2
Feng, Yuan Wang, Xiang Zhang
1
NSF Nano-scale Science and Engineering Center (NSEC), 3112 Etcheverry Hall,
Singapore 637371, Singapore, Singapore
University of California, Berkeley, California 94720, Berkeley, United States
2
We experimentally demonstrate a novel approach based on adiabatic elimination scheme for modulation in densely packed coupled
waveguides. At the nano-scale, cancellation of the coupling between
the waveguides can be achieved.
University, Singapore, Singapore 637371, Singapore, Singapore
19:45
Zilong Wang1,2, Jun Zhao3, Bettina Frank3, Qiandong Ran1, Giorgio
3
Division of Physics and Applied Physics, Nanyang Technological University,
Centre for Disruptive Photonic Technologies, Nanyang Technological
4th Physics Institute and Research Center SCoPE, University of Stuttgart,
Pfaffenwaldring 57, 70569 Stuttgart, Stuttgart, Germany
We describe a completely novel approach to enhance charge carrier photogenration in organic semiconductor by resonant coupling of plasmons in
mid-infrared split ring resonators and polarons in a conjugated polymer.
46
Wednesday Sessions
WED6o-I-06
INVITED
20:00
WED6s-O-05
Ultralow-power photonic processing by integrated nanophotonics
ORAL
20:00
Masaya Notomi
Fabrication and Spectral Tuning of Standing Gold Infrared Antennas
Using Single fs-Laser Pulses
NTT Nanophotonics Center & NTT Basic Research Laboratories, Atsugi, Japan
Tobias W.W. Maß1, Jòn Mattis Hoffmann,1, Thomas Taubner1, Martin
We realized a variety of integrable nanophotonic devices based on
photonic crystals which can be operated with small energy consumption, around fJ/bit level. We will discuss impacts of this technology
on large-scale photonic integration.
Reininghaus2, Dirk Wortmann2, Zhao Cao2
1
Institute of Physics (IA), RWTH Aachen University, Aachen, Germany
2
Fraunhofer Institute for Laser Technology,, Aachen, Germany
We present a simple method for producing upright standing nanoantennas with a high aspect ratio and a tunable resonance frequency
by single pulses of femtosecond laser radiation.
WED6s-O-06
INVITED
20:15
Low-loss Phonon Polariton Resonators : from Isotropic
to Hyperbolic
Yiguo Chen1,3, Joshua Caldwell2, Yan Francescato1, Vincenzo Giannini1,
Orest Glembocki2, Minghui Hong3, Stefan Maier1
1
The Blackett Laboratory, Imperial College London, London, United Kingdom
2
U.S. Naval Research Laboratory, Washington, D.C., United States
3
The Department of Electrical and Computer Engineering, National University
of Singapore, Singapore, Singapore
We report on the extraordinary optical properties of polar crystal-based nanoresonators which support huge field confinement
thanks to the stimulation of low-loss phonon polaritons, allowing
for both ultra-sensitive sensing (Q~270) and sub-diffraction light
guiding (λ/90).
WEDNESDAY SESSIONS
NOTES
47
Thursday Sessions
THURSDAY, 8 JANUARY 2015
OLYMPIA ROOM  08:30  09:30
Plenary Session - THU1o - Plenary Talk 5
THU1o-PL-01
PLENARY
08:30
Strong-field interactions of electrons with nano-confined light:
Classical and quantum features
Claus Ropers
4th Physical Institute, University of Göttingen, Göttingen, Germany
Several examples of field-driven interactions with electrons at optical
nanostructures will be discussed, together with experimental means
of control. Photoemission spectroscopy and electron-light scattering yield insight into classical and quantum mechanical aspects of
these phenomena.
FOYER  COFFEE BREAK  09:30  09:45
SEEFELD/TIROL ROOM  09:45  10:15
OLYMPIA ROOM  09:45  10:15
Oral Session - THU2o - Sensing II
Oral Session - THU2s - Quantum Nanosystems I
Chair:
Chair: Alexandre Zagoskin, Loughborough University, Loughborough,
United Kingdom
THU2o-I-01
INVITED
THU2s-I-01
09:45
INVITED
09:45
Efficient Coupling of Photons and Quantum Emitters
Tunable Nanoparticle Lasing Spasers
Vahid Sandoghdar
Teri Odom
Max Planck Institute for the Science of Light, Erlangen, Germany
Northwestern University, Evanston, United States
Friedrich Alexander University Erlangen-Nuremberg, Erlangen, Germany
This talk will describe how the emission from lattice-plasmon nanolasers can be dynamically tuned by changing the dielectric environment of the gain media while keeping the nanoparticle-array
cavity fixed.
I shall present various arrangements for direct and efficient coupling
of photons and quantum emitters
without the need for optical cavities.
FOYER  BREAK  10:15  10:30
SEEFELD/TIROL ROOM  10:30  11:30
THURSDAY SESSIONS
OLYMPIA ROOM  10:30  11:30
Oral Session - THU3o - Sensing III
Oral Session - THU3s - Quantum Nanosystems II
Chair:
Chair: Alexandre Zagoskin, Loughborough University, Loughborough,
United Kingdom
THU3o-O-01
ORAL
THU3s-O-01
10:30
ORAL
10:30
Biologically active plasmonic devices – engineering molecular binding sites to assemble and tune plasmonic nanostructures
Van der Waals Interactions in Atom-Metamaterial Hybrid System
Alasdair Clark, Jonathan Cooper
David Wilkowski1,3,4, Nikolay Zheludev1, 5
University of Glasgow, Glasgow, United Kingdom
1
We demonstrate biologically-active nano-plasmonic devices whose
geometry and optical response change due to single biomolecular binding events. Fusing direct-write lithography and molecular
self-assembly, these devices enable single binding event detection
through colorimetrics and SERS.
University, 637371, Singapore, Singapore
Eng Aik Chan1, Syed Abdullah Aljunid1, Giorgio Adamo1, Martial Ducloy1,2,
2
Centre for Disruptive Photonic Technologies, Nanyang Technological
Université Paris 13, Laboratoire de Physique des Lasers, CNRS, (UMR 7538),
F-93430, Villetaneuse, France, Villetaneuse, France
3
Centre for Quantum Technologies, National University of Singapore, 117543
Singapore, Singapore
4
Merlion MajuLab, CNRS-UNS-NUS-NTU International Joint Research Unit
UMI 3654, Singapore, Singapore
48
Thursday Sessions
5
University of Southampton, School of Physics and Astronomy, Southampton
SO17 1BJ, UK, Southampton, United Kingdom
We observe the atomic transition frequency shift and the Fano-like
modification of selective reflection spectra of Caesium vapour interacting with photonic metamaterial. The observed changes are attributed to strong coupling between atomic and plasmonic excitations.
THU3o-O-02
ORAL
10:45
THU3s-I-02
INVITED
10:45
High-Contrast Nanoparticle Sensing using a
Hyperbolic Metamaterial
Active Plasmonic Devices
Henri Lezec1, Ting Xu1,2, Wenqi Zhu1,2, Craig Copeland1,2, Samuel Stavis1,
The Hebrew University of Jerusalem, The Harvey M. Kreuger Family Center for
Amit Agrawal1,2
Nanoscience and Nanotechnology, Jerusalem, Israel
1
Uriel Levy
We demonstrate the importance of nano pyramids for the enhancement of the internal photoemission efficiency, and the integration of
several plasmonic photodetectors on a chip. Finally, we also demonstrate Doppler free lines and plasmonic-photonic switching in our
hybrid atomic-alkali vapor system.
Center for Nanoscale Science and Technology, National Institute of
Standards and Technology, Gaithersburg, United States
2
Maryland Nanocenter, University of Maryland, College Park, United States
Using planar hyperbolic metamaterials composed of alternating
layers of metal (Ag) and dielectric (SiO2), we demonstrate a transmission device for nanoparticle sensing that exhibits extremely high
optical contrast. THU3o-I-03
INVITED
11:00
THU3s-O-03
ORAL
11:15
Hatice Altug , Arif Cetin , Ahmet Coskun , Betty Galarreta , David Herman ,
Quantum Hyperbolic Metamaterials with Atomic Condensates
and Bragg Polaritons
Aydogan Ozcan2
Alexander Alodjants1, Sergey Arakelian1, Ivan Iorsh2, Alexey Kavokin3
Plasmonics for Hand-Held Diagnostics and Biotechnology
1
1
2
3
2
1
Ecole Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland
1
2
UCLA, Los Angeles, United States
named after A. G. and N. G. Stoletovs, Vladimir, Russia
3
Boston University, Boston, United States
2
University of ITMO, St. Petersburg, Russia
3
University of Southampton, School of Physics and Astronomy, Southampton,
We introduce a hand-held and low-cost plasmonic biosensors combining high-throughput and label-free protein microarrays with lensfree microscopy and microfluidics. Our technology, less then 50g in
weight and 10cm in height, is suitable for point-of-care diagnsotics.
Department of Physics and Applied Mathematics, Vladimir State University
United Kingdom
We propose a novel mechanism for designing quantum hyperbolic
metamaterials with use of spatially-periodical atomic condensates
and/or exciton-polaritons in semiconductor Bragg mirrors. Some
analogues of fundamental cosmological processes occurring with
our Universe’s evolution are discussed.
THURSDAY SESSIONS
NOTES
49
Thursday Sessions
OLYMPIA ROOM  11:30  13:00
SEEFELD/TIROL ROOM  11:30  13:00
Oral Session - THU4o - Applications I
Oral Session - THU4s - Quantum Nanosystems III
Chair: Henri Lezec, NIST, Gaithersburg, United States
Chair: Hatice Altug, Ecole Polytechnique Fédérale de Lausanne,
Lausanne, Switzerland
THU4o-I-01
INVITED
11:30
THU4s-O-01
ORAL
11:30
Controlling radiation scattering and emission with gap plasmon resonators
Metamaterial Coherent Plasmonic Absorption With a Single Photon
Sergey Bozhevolnyi
Joao Valente3, Julius Heitz2, John Jeffers4, Jonathan Leach2, Christophe
University of Southern Denmark, Odense M, Denmark
Couteau2,5,6, Cesare Soci1, Nikolay Zheludev1,3, Daniele Faccio2,
Charles Altuzarra1, Stefano Vezzoli1, Thomas Roger2, Eliot Bolduc2,
Gap plasmon resonators are considered both for designing efficient
metasurfaces that enable control of phase and amplitude of the reflected radiation and for controlling lifetime and emission channels
of quantum emitters located in their vicinity.
Thomas Roger2
1
Center for Disruptive Photonic Technologies, Nanyang Technological
University, Singapore, Singapore
2
Institute for Photonics and Quantum Sciences and SUPA, Heriot-Watt
University, Edinburg, United Kingdom
3
Optoelectronics Research Centre & Centre for Photonic Metamaterials,
University of Southampton, Southampton, United Kingdom
4
Department of Physics, University of Strathclyde, Glasgow,
United Kingdom
5
CINTRA CNRS-NTU-Thales, UMI 3288, Singapore, Singapore
6
Laboratory for Nanotechnology, Instrumentation and Optics, ICD CNRS UMR
6281, University of Technology of Troyes, Troyes, France
With a plasmonic metamaterial absorber of sub-wavelength thickness we demonstrated that coherent absorption can be observed
even with a single photon that could be coupled with nearly 100%
probability into a localized plasmon.
THU4s-I-02
INVITED
11:45
Quantum or Semiclassical Plasmonics?
Martijn Wubs
DTU Fotonik, Technical University of Denmark, Kgs. Lyngby, Denmark
Center for Nanostructured Graphene, Technical University of Denmark, Kgs.
Lyngby, Denmark
THURSDAY SESSIONS
In metal nanoplasmonics, semiclassical theories explain more
non-classical phenomena than hitherto expected, for example
size-dependent damping and electronic spill-out. In graphene plasmonics on the other hand, quantum mechanical edge states play a
surprisingly important role.
THU4o-O-02
ORAL
12:00
Multi-Channel “Traffic Control” with Optical Bridges
Mikhail Lapine1, Alexey Slobozhanyuk2, Ilya Shadrivov2, David Powell2,
Ross McPhedran1, Yuri Kivshar2
1
CUDOS, School of Physics, The University of Sydney, NSW 2006
Australia, Australia
2
Nonlinear Physics Centre, Australian National University, Canberra, ACT 2601
Australia, Australia
We introduce nonlinear optical bridges between otherwise independent electromagnetic waveguides. This enables efficient
suppression of the transmission over one channel depending on
the power supplied over the other, providing a "traffic light" for
the signals. 50
Thursday Sessions
THU4o-O-03
ORAL
12:15
THU4s-I-03
INVITED
12:15
Arbitrary Light Polarization Synthesis and Sorting with
Silicon Nanoantennas
Controlling Subnanometric Plasmonics
Francisco J. Rodríguez-Fortuño, Daniel Puerto, Alba Espinosa-Soria,
Center for Materials Physics CSIC-UPV/EHU and DIPC, Donostia-San
Amadeu Griol, Alejandro Martínez
Sebastián, Spain
Universitat Politècnica de València, Valencia, Spain
The optics of subnanometric nanogaps provides a fantastic tool to
explore atomic-scale morphologies where complex photochemical processes take place. We exploit different classical and quantum
theoretical approaches to address the optics of metallic nanogaps.
Javier Aizpurua
We experimentally demonstrate a universal method to achieve the
analysis and sorting of any arbitrary polarization state of light, spanning the full Poincare sphere, radiated by a single silicon nanoantenna, with two feeding waveguides.
THU4o-O-04
ORAL
12:30
A 1550nm Thermo-Optically Tunable Flat-Lens
Jonathan Pugh1, Jamie Stokes1, Martin Lopez-Garcia1, John Rarity1,
Choon-How Gan2, Geoffrey Nash2, Martin Cryan1
1
University of Bristol Department of Electrical and Electronic Engineering,
Bristol, United Kingdom
2
University of Exeter College of Engineering, Mathematics and Physical
Sciences, Exeter, United Kingdom
We present a slot-grating flat lens fabricated in a 200nm thick layer
of amorphous silicon-on-aluminum. The high dn/dT of amorphous silicon has the potential to enable thermo-optic focusing
and steering.
THU4o-O-05
ORAL
12:45
THU4s-O-04
ORAL
12:45
Data transmission in long-range dielectric-loaded surface plasmon
polariton waveguides
Quantum Čerenkov Radiation from Electron Vortex Beams
Arkadi Chipouline , Svyatoslav Kharitonov , Roman Kiselev , Ashwani
Soljačić1, Maor Mutzafi2, Gal Harari2, Hanan Herzig Sheinfux2, Jonathan
Kumar , Ivan Fernández de Jáuregui Ruiz , Xueliang Shi , Kristján
Nemirovsky2, Mordechai Segev2
Léosson , Thomas Pertsch , Stefan Nolte , Sergei Bozhevolnyi
1
7
1
3
4
6
1
7
7
Ido Kaminer1,2, Amir Levy1, Scott Skirlo1, John D. Joannopoulos1, Marin
2
3,5
3
Photonic Systems Laboratory, École polytechnique fédérale de Lausanne,
Station 11, CH-1015 Lausanne, Switzerland, Lausanne, Switzerland
2
United States
Institute of Photonic Technology, PO 100239, D-07702 Jena, Germany,
2
Jena, Germany
3
Using quantum field theory, we calculate Čerenkov radiation from an
electron with a vortex-shape wavefunction. When it travels through
a photonic waveguide, it emits a photon with a specific frequency,
angle, and angular momentum.
Department of Technology and Innovation, University of Southern Denmark,
Alcatel-Lucent Bell Labs France, Route de Villejust, 91620 Nozay, France,
Nozay, France
5
Physics Department and Solid State Institute, Technion, Haifa 32000, Israel,
Haifa, Israel
Niels Bohrs Allé 1, DK-5230 Odense M, Denmark, Odense M, Denmark
4
Department of Physics, Massachusetts Institute of Technology, 77
Massachusetts Avenue, Cambridge, Massachusetts, USA, Cambridge MA,
Department of Information Science and Electronic Engineering, Zhejiang
University, Hangzhou 310027, China, Hangzhou, China
Department of Physics, Science Institute, University of Iceland, Dunhaga 3,
THURSDAY SESSIONS
6
IS-107 Reykjavik, Iceland, Reykjavik, Iceland
7
Institute of Applied Physics, Friedrich-Schiller University Jena, Albert-Einstein
Str. 15, D-07745 Jena, Germany, Jena, Germany
We demonstrate the data transmission of 10 Gbit/s NRZ optical
signal through a long-range dielectric-loaded surface plasmon polariton waveguide. The BER penalties do not exceed 0.6 dB at few
mW of received optical power.
BREAK  13:00  16:00
51
Thursday Sessions
OLYMPIA ROOM  16:00  17:30
SEEFELD/TIROL ROOM  16:00  17:15
Oral Session - THU5o - Applications II
Oral Session - THU5s - Novel Phenomena
Chair: Igal Brener, Sandia National Laboratories, Albuquerque,
Chair: Kevin MacDonald, University of Southampton, Southampton,
United States
United Kingdom
THU5o-I-01
INVITED
16:00
THU5s-I-01
INVITED
16:00
Harnessing disorder at the nanoscale: from a liquid black-body for
light to complexity-driven energy harvesters
Classical and Quantum Features of Static Optics
Andrea Fratalocchi
University of Pennsylvania, Philadelphia, United States
KAUST University, Thuwal, Saudi Arabia
We will discuss some of the wave physics and quantum characteristics of light interaction with structures exhibiting the phenomenon
of “static optics”, i.e., electrodynamic platforms with both relative
permittivity and permeability near zero.
Ahmed Mahmoud, Nader Engheta
I will discuss a new paradigm of “complexity-driven” photonics,
where disorder and chaos provide an active pathway for developing new nanoscaled applications, ranging from energy harvesting
to bio-imaging and broadband perfect absorbers
THU5o-O-02
ORAL
16:30
THU5s-O-02
ORAL
16:30
Dark Mode Plasmonic Crystal
Plasmoelectric potentials in metal nanostructures
Kyosuke Sakai, Kensuke Nomura, Takeaki Yamamoto, Keiji Sasaki
Jorik van de Groep1, Matthew Sheldon2, Ana Brown2, Albert Polman1,
Research Institute for Electronic Science, Hokkaido University, Sapporo, Japan
Harry Atwater2
We theoretically propose plasmonic crystal with dark mode resonance, which promise application in the field of strong light-matter
interactions. Optical properties and excitation scheme using vector
beam is presented.
THU5o-O-03
ORAL
1
FOM Institute AMOLF, Amsterdam, Netherlands
2
California Institute of Technology, Pasadena, United States
We demonstrate optically induced surface potentials in both Au
colloids and sub-wavelength hole arrays in 20 nm thin Au films.
Using Kelvin probe microscopy we measure wavelength dependent
potentials as high as 100 mV.
16:45
THU5s-O-03
ORAL
16:45
Control of Free-electron Light Emission with
Holographic Nanostructures
Nonlinear Gravitational Dynamics of Complex Optical Wavepackets
Guanhai Li1,2, Brendan Clarke1, Jin-Kyu So1, Kevin F. MacDonald1,
Mordechai Segev
Xiaoshuang Chen , Lu Wei , Nikolay I. Zheludev
Technion - Israel Institute of Technology, Haifa, Israel
2
1
2
Rivka Bekenstein, Ran Schley, Maor Mutzafi, Carmel Rotschild,
1,3
We study the complex dynamics of accelerating wavepackets interacting with a high power beam in thermal nonlocal nonlinear media,
arising from the interplay between interference effects and optical
analogues of tidal forces and gravitational lensing
Optoelectronics Research Centre & Centre for Photonic Metamaterials,
University of Southampton, Southampton, United Kingdom
2
National Key Laboratory for Infrared Physics, Shanghai Institute of Technical
Physics, Shanghai, China
3
Centre for Disruptive Photonic Technologies, Nanyang Technological
THURSDAY SESSIONS
University, Singapore, Singapore
We demonstrate that the direction, spectral composition and wavefront of optical radiation stimulated by free electrons injected into
plasmonic computer-generated holographic nanostructures can be
controlled by the design of the structure.
THU5o-O-04
ORAL
17:00
THU5s-O-04
Thermal probe nanolithography for novel photonic devices
ORAL
17:00
Felix Holzner , Philip Paul , Colin Rawlings , Heiko Wolf , Urs Dürig , Armin
Experimental Study of Spin-Orbit Coupling and Far Field Scattering
of Surface Plasmons by Nanostructures: Role of Transverse Spin
W. Knoll2
Francisco J. Rodríguez-Fortuño, Daniel O'Connor, Pavel Ginzburg, Gregory
1
1
2
2
2
1
SwissLitho AG, Zurich, Switzerland
A. Wurtz, Anatoly V. Zayats
2
IBM Research Zurich, Rüschlikon, Switzerland
King´s College London, London, United Kingdom
A novel alternative to E-beam lithography, in particular for
plasmonic and nanophotonic devices, is presented. Patterning
resolution and speed are similar; however, the novel technique
enables direct 3D lithography and markerless overlay with sub5 nm accuracy.
The transverse spin carried by surface plasmons is intimately
linked to their scattering after impinging on a nanostructure.
Circular polarizations of opposite handedness are radiated into
mirror-symmetric directions, dependent on the plasmon propagation direction.
52
Thursday Sessions
THU5o-O-05
ORAL
17:15
Guiding magnetic fields with metamaterials: experimental realizations
Jordi Prat-Camps, Carles Navau, Alvaro Sanchez
Grup d’Electromagnetisme, Departament de Física, Universitat Autònoma de
Barcelona, Bellaterra, Spain
We present the experimental realization of two novel devices made
of magnetic metamaterials which allow to shape magnetic fields in
unprecedented ways; a magnetic hose to guide static magnetic fields
and a magnetic concentrating shell.
FOYER  SHORT COFFEE BREAK  17:30  17:45
OLYMPIA ROOM  18:30  19:00
SEEFELD/TIROL ROOM  18:30  19:00
Breakthrough Talk - THU6o - Breakthrough Talk III
Breakthrough Talk - THU6s - Breakthrough Talk IV
Chair: Steven Anlage, University of Maryland, College Park, United States
Chair: Mark Stockman, Center for Nano-Optics, Georgia State University,
Atlanta, United States
THU6o-K-01
BREAKTHROUGH
18:30
THU6s-K-01
BREAKTHROUGH
18:30
Quantum Nanophotonics
Quantum Integrated Plasmonics
Mikhail Lukin
Harry Atwater
Harvard University, Cambridge, United States
T. J. Watson Laboratories of Applied Physics, California Institute of Technology,
We will discuss recent developments at a new scientific interface
between quantum optics and nanophotonics that involve individual
ultracold atoms and atom-like solid-state emitters strongly coupled
with nanophotonic devices.
Pasadena, United States
We demonstrate entanglement of plasmons in chip-based integrated
structures, via two-photon quantum interference in plasmonic waveguide directional couplers, and path entanglement in photonic circuits using thermo-optic phase shifters for phase tuning. We discuss
implications for coherent plasmons in integrated photonic structures.
OLYMPIA ROOM  19:00  19:15
Award Ceremony - THU7o - 2015 EPS-QEOD
Prize for Research into the Science of Light
Chair: Nikolay Zheludev, University of Southampton, UK & NTU Singapore,
United Kingdom
THURSDAY SESSIONS
The Quantum Electronics and Optics Division of the European Physical Society is delighted to announce the 2015 winner of the Prize for
Research into the Science of Light. This Prize is awarded every two
years and recognizes a recent work by one or more individuals for scientific excellence in the area of electromagnetic science in its broadest
sense, across the entire spectrum of electromagnetic waves. The 2015
Prize for Research into the Science of Light is awarded to Miles Padgett,
Professor at the Department of Physics and Astronomy, University of
Glasgow, Glasgow, United Kingdom. The Prize is awarded to Professor
Padgett for “internationally recognised work on optical momentum,
including an optical spanner, use of orbital angular momentum in
communication systems and an angular form of EPR paradox”.
OLYMPIA ROOM  19:15  19:45
- THU8o - Student Poster Award and Closing
Remarks: Nikolay Zheludev and Harald Giessen
The closing remarks will be followed by an after conference presentation "There is plenty of light at the bottom" (by N. Zheludev).
FOYER  THU9F  BEER RECEPTION  19:45  20:30
53
Authors' Index
AUTHORS’ INDEX
Abb, Martina
TUE4f-P-40
Bartal, Guy
TUE2s-O-05
Basov, Dmitri N
MON1o-PL-01
Baumberg, Jeremy
WED5f-P-09
TUE4f-P-06
Abdul Khudus, Muhammad Imran Mustafa
WED5f-P-63
Adamo, Giorgio
THU3s-O-01,
TUE4f-P-61
WED6s-O-04
THU5s-O-03
TUE4f-P-24
Belardini, Alessandro
WED5f-P-44
Cao, Zhao
Capasso, Federico
Carbonell, Jorge
WED5f-P-48
Casanova, F.
WED2o-I-01
Belov, Pavel
TUE4f-P-58
Cederberg, Jeffrey
WED5f-P-56
MON3o-I-01
Belov, Pavel A.
TUE4f-P-42
TUE4f-P-25
Benson, Oliver
Ahn, Byungnam
MON2o-O-02
Aizpurua, Javier
WED2o-O-03
Bergmair, Iris
TUE5o-O-02
Berwind, Matthew
TUE4f-P-37
WED2o-I-04
Caspani, Lucia
THU3o-O-02
MON2s-I-01
Caridad, Jose
TUE4f-P-48
Agrawal, Amit
TUE4f-P-12
WED6s-O-05
Carrega, Matteo
Bell, Alan
Aeschlimann, Martin
THU4s-I-03
Cencillo, Pablo
TUE4f-P-04
WED6o-O-03
TUE4f-P-43
Centeno, A.
WED2o-I-01
WED5f-P-27
Centini, MArco
WED5f-P-44
WED5f-P-71
Cernescu, Adrian
WED5f-P-29
WED5f-P-74
Cetin, Arif
THU3o-I-03
TUE4f-P-44
WED2s-O-01
Chan, Che Ting
MON2o-I-07
Chan, Eng Aik
THU3s-O-01
WED5f-P-09
Besbes, Mondher
TUE4f-P-12
Chen, Hongsheng
WED6s-I-03
Åkerman, Johan
TUE4f-P-11
Besga, Benjamin
WED2s-O-03
Chen, Houtong
MON2s-I-03
Akimov, Valeri
TUE4f-P-58
Bharadwaj, Palash
WED3o-O-02
Chen, J.
WED2o-I-01
Biswas, Sushmita
WED5f-P-05
Chen, Jie
MON3s-I-04
Bock, Wojtek
WED5f-P-06
Chen, Lifeng
WED5f-P-55
Alarcón-Correa, Mariana
Alarousu, Erkki
MON3o-O-02
TUE4f-P-67
Aljunid, Syed Abdullah
THU3s-O-01
Bogdanov, Andrey
WED3s-O-03
Chen, Mu-Ku
MON3s-I-04
Al Kotob, Moubine
WED2s-O-01
Böhm, Florian
WED5f-P-74
Chen, Pai-Yen
TUE4f-P-18
Chen, Si
TUE5s-I-01
Almeida, Euclides
TUE4f-P-08
Bohn, Christopher
TUE4f-P-25
Alodjants, Alexander
THU3s-O-03
Bolduc, Eliot
THU4s-O-01
Chen, Xiaoshuang
Alonso - González, P.
WED2o-I-01
Boltasseva, Alexandra
MON3o-I-03
Chen, Yi-Hao
MON3s-I-04
Alonso-González, Pablo
WED2o-I-04
TUE2o-I-02
Chen, Yiguo
WED6s-O-06
Altpeter, Philipp
WED5f-P-74
Bondy, Yaara
TUE4f-P-77
Chichkov, B.
Altug, Hatice
THU3o-I-03
Bonner, Carl
TUE2o-I-02
Chipouline, Arkadi
TUE2s-I-07
THU4o-O-05
WED6o-O-02
THU4s-O-01
Bose, Gaurav
WED5f-P-45
WED5f-P-23
WED1o-PL-01
Bouhelier, A.
TUE4f-P-70
TUE4f-P-22
Altuzarra, Charles
Alu, Andrea
WED5f-P-33
THU5o-O-03
WED5f-P-24
Amani, Elahe
WED5f-P-67
Bouhelier, Alexandre
WED5f-P-50
WED5f-P-35
Amarie, Sergiu
WED5f-P-29
Bozhevolnyi, Sergey
THU4o-O-05
WED5f-P-22
Ambrosio, Antonio
MON2s-I-01
THU4o-I-01
TUE4f-P-23
Amin, Muhammad
WED2s-O-04
WED5f-P-75
WED5f-P-04
Anlage, Steven M.
WED6o-I-01
TUE4f-P-38
Ansell, Daniel
WED5f-P-75
WED5f-P-16
Antosiewicz, Tomasz
WED5f-P-02
TUE4f-P-03
Antosiewicz, Tomasz J.
TUE5s-I-01
Aradian, Ashod
WED5f-P-35
Arakelian, Sergey
THU3s-O-03
Aristov, Andrey
WED5f-P-26
Arnold, Nikita
WED5f-P-20
WED5f-P-21
Arsenin, Aleksey
Atwater, Harry
Avayu, Ori
Azad, Abul
AUTHORS' INDEX
Bekenstein, Rivka
TUE4f-P-31,
Canva, Michael
Bagci, Hakan
TUE4f-P-62
Bradac, Carlo
TUE4f-P-38
WED2s-O-03
Choi, Minjung
WED5f-P-48
Chong, Yidong
TUE5o-I-01
TUE4f-P-48
Chowdhury, Dibakar
MON2s-I-03
Bratschitsch, Rudolf
TUE2o-I-04
Chremmos, Ioannis
TUE4f-P-29
Brener, Igal
TUE2o-I-05
Chrigrin, Dmitri
TUE4f-P-16
Brown, Ana
THU5s-O-02
Bradley, Louise
Bruck, Roman
TUE4f-P-55
WED6o-O-04
THU5s-O-02
WED5f-P-65
Christiansen, Silke
WED5f-P-12
Clark, Alasdair
THU3o-O-01
Clarke, Brendan
THU5o-O-03
THU6s-K-01
Bryche, Jean-François
TUE4f-P-12
Clerici, Matteo
TUE4f-P-05
WED5f-P-68
Buchenauer, Andreas
WED5f-P-13
Cluzel, benoît
TUE4f-P-20
MON2s-I-03
Buil, S.
TUE4f-P-70
Cocker, Tyler
MON2o-O-03
WED2s-O-04
Buil, Stéphanie
WED5f-P-50
Colas des Francs, G.
WED5f-P-63
Colas des Francs, Gérard
WED5f-P-27
Cong, Longqing
MON3s-O-03
Constant, Thomas
WED3o-O-05
Bagheri, Shahin
WED5f-P-77
Buscemi, Giuseppe
Balázs, József
WED5f-P-60
Busch, Kurt
Balcytis, Armandas
WED5f-P-24
Chirumamilla, Manohar Chirumamilla
TUE4f-P-02
Caldwell, Joshua
WED6s-O-06
TUE4f-P-70
WED5f-P-50
WED5f-P-61
Cooper, Jonathan
THU3o-O-01
Barnakov, Yuri
TUE2s-I-07
Calò, Giovanna
TUE4f-P-14
Copeland, Craig
THU3o-O-02
Barnes, William
WED5f-P-43
Camon, Henri
TUE4f-P-20
Correa Duarte, M.
WED5f-P-69
Barnes, William L.
WED5f-P-38
Canneson, Damien
Coskun, Ahmet
THU3o-I-03
Bánhelyi, Balázs
WED5f-P-59
WED5f-P-50
54
Authors' Index
TUE2o-I-02
WED5f-P-68
Couteau, Christophe
WED5f-P-33
TUE4f-P-75
THU4s-O-01
Ellis, Chase
Cox, Joel D.
WED3o-O-04
Eloi, F.
Cryan, Martin
THU4o-O-04
Csapó, Edit
WED5f-P-60
Csendes, Tibor
WED5f-P-59
WED5f-P-11
TUE4f-P-63
TUE4f-P-01
Csete, Mária
Cui, Long
Dai, Jin
Dambach, M.
Danzberger, Jürgen
WED5f-P-61
THU3o-I-03
WED2s-O-05
Gallo, Pascal
WED5f-P-64
Gan, Choon-How
THU4o-O-04
Eloi, Fabien
WED5f-P-50
Gankin, Michael
Engheta, Nader
THU5s-I-01
Gao, Yuanda
Epstein, Itai
WED5f-P-59
Ercolani, Daniele
WED5f-P-46
Eskelinen, Antti-Pekka
WED5f-P-68
MON2o-O-03
TUE4f-P-69
WED2o-I-04
Gaponik, Nikolai
WED5f-P-48
García de Abajo, F. Javier
WED5f-P-37
García de Abajo, Francisco Javier
WED5f-P-54
García de Abajo, Javier
WED2s-O-06
WED5f-P-32
TUE4f-P-35
Eslami, Sahand
MON3o-O-02
WED3o-I-03
Espinosa-Soria, Alba
THU4o-O-03
TUE5o-O-02
WED5f-P-70
TUE2s-O-02
TUE4f-P-44
Galland, Christophe
TUE4f-P-70
WED5f-P-60
TUE4f-P-17
Galarreta, Betty
WED5f-P-34
Gauthier-Lafaye, Olivier
TUE4f-P-14
Gavrilenko, Vladimir
TUE2o-I-02
TUE4f-P-20
David, Asaf
TUE2s-O-05
Esteban, Ruben
David, Christin
WED5f-P-37
E. Tannous, Edward
Davis, Matthew
TUE4f-P-25
Evlyukhin, Andrey
WED5f-P-24
Geib, Kent
Dawes, Judith
TUE4f-P-76
Faccio, Daniele
THU4s-O-01
Geiss, R
WED5f-P-24
Geiss, Reinhard
WED5f-P-23
MON2s-I-01
de Abajo, F. Javier
de Groot, Kees
TUE4f-P-69
TUE4f-P-04
WED3o-O-04
TUE4f-P-40
de Jáuregui Ruiz, Ivan Fernández THU4o-O-05
Fainman, Yeshaiahu
Dékány, Imre
Fang, Yurui
WED5f-P-60
Farhat, Mohamed
WED6o-O-03
TUE4f-P-05
Genevet, Patrice
MON4o-I-02
Genov, Dentcho
WED6s-I-01
TUE5s-I-01
Ghadimi, Amir
WED2s-O-02
WED2s-O-04
Delfanazari, Kaveh
TUE4f-P-47
De Luca, Antonio
WED5f-P-69
Demichel, Olivier
TUE4f-P-20
Farsari, Maria
Desiaotv, Boris
TUE4f-P-72
Fasold, S.
WED5f-P-24
WED5f-P-23
Gholipour, Behrad
TUE4f-P-18
TUE4f-P-28
WED5f-P-46
WED3s-O-05
Giannini, Vincenzo
Gibbs, John G.
WED6s-O-06
WED5f-P-70
MON3o-O-02
DeVault, Clayton
MON3o-I-03
TUE2o-I-02
Fasold, Stefan
Fedorov, Sergey
TUE4f-P-23
Dhama, Rakesh
WED5f-P-69
Fedotov, Vassili
TUE4f-P-39
WED5f-P-11
Giessen, Harald
TUE4f-P-13
TUE4f-P-62
WED6s-O-04
WED6o-O-05
TUE2s-O-04
Ferrari, Andrea
WED5f-P-09
TUE4f-P-10
Díaz-Rubio, Ana
TUE4f-P-37
Fedyanin, Dmitry
Di Falco, Andrea
TUE4f-P-04
Feng, Liang
TUE4f-P-55
Dirdal, Christopher Andrew
WED5f-P-17
Ferrera, Marcello
MON3o-I-03
TUE4f-P-19
Djiango, Martin
WED5f-P-52
Filonov, Dmitry
TUE4f-P-58
TUE4f-P-09
D. Joannopoulos, John
THU4s-O-04
Finlayson, Ewan
Dmitriev, Alexandre
Dockrey, Joseph A.
Dominec, Filip
Dong, Lin
TUE4f-P-11
Fischer, Peer
TUE4f-P-21
WED5f-P-77
MON3o-O-02
WED3s-O-04
WED6s-O-02
WED5f-P-66
Giles, Alexander
WED5f-P-15
WED5f-P-70
Giloan, Mircea
TUE4f-P-44
Floess, Dominik
TUE4f-P-10
WED5f-P-58
Ginzburg, Pavel
THU5s-O-04
Downes, James
TUE4f-P-76
Fogelström, Mikael
WED5f-P-39
WED5f-P-11
Foreman, Matthew
WED5f-P-25
Duan, Xiaoyang
WED5f-P-72
Förg, Benjamin
MON2o-O-02
TUE4f-P-70
Förster, Michael
MON2o-O-02
Gjonaj, Bergin
Dubertret, Benoît
WED5f-P-50
Francescato, Yan
WED6s-O-06
Glembocki, Orest
Ducloy, Martial
THU3s-O-01
Frank, Bettina
Dumas, Randy K.
TUE2s-O-04
WED6s-O-04
TUE4f-P-11
WED5f-P-47
TUE4f-P-42
TUE2s-O-05
WED6s-O-06
Glybovski, Stanislav
TUE4f-P-58
Gold, P.
TUE2s-O-02
WED2o-I-01
Dunsby, Christopher
WED5f-P-25
THU5o-I-01
Golmar, F.
Dürig, Urs
THU5o-O-04
TUE4f-P-55
Gomez, Daniel
Dwir, Benjamin
WED5f-P-64
WED5f-P-19
Gonçalves, Manuel
WED5f-P-08
TUE4f-P-67
Götzinger, Stephan
WED5f-P-12
TUE4f-P-70
Gough, John
WED5f-P-48
Dyakov, Sergey
Eberl, Christoph
Fratalocchi, Andrea
TUE4f-P-45
Giorgis, Valentina
Dregely, Daniel
Dubertret, B.
WED5f-P-61
TUE4f-P-17
WED2s-O-01
Frederich, H.
TUE4f-P-50
Frederich, Hugo
WED5f-P-50
Goykhman, Ilya
TUE4f-P-72
TUE5o-O-02
French, Paul
WED5f-P-25
Grady, Nathaniel
MON2s-I-03
Eiden, Anna
WED5f-P-09
Fujii, Kazuki
TUE4f-P-26
Grajower, Meir
Eisele, Max
MON2o-O-03
Fujimura, Ryushi
TUE4f-P-26
Grande, Marco
TUE4f-P-14
Eisner, Elad
WED5f-P-68
Fujiwara, Hideki
TUE5s-I-02
Grange, Rachel
WED5f-P-23
Fu, Liwei
TUE2s-O-04
Grant, Patrick
Gabalis, Martynas
TUE4f-P-02
Ebihara, Yuusuke
TUE4f-P-27
Echenique, Pedro
El-Amassi, Dena
TUE4f-P-30
Ellenbogen, Tal
TUE2o-O-03
55
TUE4f-P-73
TUE4f-P-15
WED5f-P-07
AUTHORS' INDEX
Courtwright, Devon
Authors' Index
Greenfield, Elad
Hone, James
WED2o-I-04
Gregersen, N.
TUE2s-O-02
Hong, Minghui
WED6s-O-06
TUE5s-I-01
Gregory, Simon
WED5f-P-76
Hooper, Ian
TUE4f-P-34
WED5f-P-18
Grigorenko, Alexander N.
WED5f-P-75
Griol, Amadeu
THU4o-O-03
Gross, Heiko
TUE4f-P-24
TUE2s-I-01
Guenneau, Sebastien
WED2s-O-04
Guler, Urcan
MON3o-I-03
Gutt, Robert
TUE4f-P-45
WED5f-P-49
Hooper, Ian R.
Kaminer, Ido
Hornett, Samuel
Kamp, M.
TUE2s-O-02
WED3o-O-05
Kaner, Roy
TUE4f-P-77
WED5f-P-49
Kao, Tsung Sheng
TUE4f-P-54
Kapon, Elyahou
WED5f-P-64
WED5f-P-63
Hågenvik, Hans Olaf
WED5f-P-28
Horsley, Simon A. R.
WED6s-O-02
Karabchevsky, Alina
WED5f-P-32
Ho, Ying-Lung Daniel
WED5f-P-55
Karanikolas, Vasilios
Hakonen, Aron
TUE5s-I-01
Han, Jiaguang
Hrelescu, Calin
TUE4f-P-24
TUE2s-O-04
TUE4f-P-52
Horsley, Simon
WED5f-P-02
THU4s-O-04
WED6s-O-02
Horn-von Hoegen, Michael
Hakala, Tommi
TUE4f-P-48
TUE4f-P-44
Karvonen, Lasse
MON2s-I-04
WED5f-P-52
Kavokin, Alexey
THU3s-O-03
TUE4f-P-51
WED5f-P-21
Keeler, Gordon
WED6o-O-03
MON3s-O-03
Han, Yu
TUE4f-P-67
TUE4f-P-46
Hsu, Wei-Lun
MON3s-I-04
WED5f-P-42
Keevend, K.
WED5f-P-01
Keilmann, Fritz
WED5f-P-29
Han, Zhanghua
WED5f-P-75
Huang, Jer-Shing
TUE4f-P-49
Kekatpure, Rohan
WED6o-O-03
Harari, Gal
THU4s-O-04
Huang, Jianfeng
TUE4f-P-67
Kelkar, Hrishikesh
WED5f-P-12
TUE4f-P-28
Hashimoto, Yoshikazu
TUE5s-I-02
Huang, Li
MON2s-I-03
Kenanakis, George
Haslinger, Michael
TUE4f-P-44
Huang, Yao-Wei
MON3s-I-04
Kenney, Mitchell
MON2s-I-04
Hatakeyama, Taiki
WED6o-O-05
Huang, Yi-Teng
MON3s-I-04
WED5f-P-53
Huber, Markus
MON2o-O-03
Keren-Zur, Shay
TUE2o-O-03
Haus, Joseph W.
WED5f-P-44
Huber, Rupert
MON2o-O-03
Havrilla, Michael
WED5f-P-03
Hueso, L.E.
WED2o-I-01
Kewes, Günter
WED5f-P-71
Hayat, Alex
TUE5o-O-03
Humphrey, Alastair
WED5f-P-43
Hecht, Bert
TUE2s-I-01
Hauer, Benedikt
WED5f-P-38
Heinrichs, Niko
WED5f-P-74
Hu, Wenchao
Heitz, Julius
THU4s-O-01
Il’ichev, Evgeny
Hendler, Netta
TUE2o-O-03
Infusino, Melissa
Hendry, Euan
TUE4f-P-52
TUE5o-I-01
WED6o-O-02
WED5f-P-69
Iorsh, Ivan
Herman, David
THU3o-I-03
Hermier, Jean-Pierre
WED5f-P-50
Hermier, J.P.
TUE4f-P-51
TUE4f-P-75
WED5f-P-27
Khaidarov, Egor
TUE4f-P-22
Khaidarov, Thomas
TUE4f-P-22
Kharitonov, Svyatoslav
Khurgin, Jacob
THU3s-O-03
TUE4f-P-42
Isakov, Dmitry
TUE4f-P-70
THU4o-O-05
TUE4f-P-72
TUE5s-I-02
WED5f-P-56
WED3o-O-05
Kieu, Khanh
WED5f-P-42
Kildishev, Alexander
MON3o-I-03
TUE4f-P-15
WED5f-P-20
WED5f-P-07
TUE2o-I-02
Herrmann, Lars
WED2o-O-03
Ivic, Z.
Herzig Sheinfux, Hanan
THU4s-O-04
Jain, Achint
Hewak, Daniel
WED5f-P-46
Jarlov, Clement
WED5f-P-64
Kim, Hyeon-Don
MON3s-I-02
He, Y.
TUE2s-O-02
Javaux, Clémentine
WED5f-P-50
Kim, Insook
WED5f-P-66
Heyes, Jane
MON2s-I-03
Jeffers, John
THU4s-O-01
Kim, Jongbum
MON3o-I-03
He, Y.M.
TUE2s-O-02
Jeong, Hyeon-Ho
WED5f-P-66
Kim, Kyoungsik
WED5f-P-65
MON3o-O-02
Kim, Kyungjin
MON3s-I-02
Hibbins, Alastair
TUE4f-P-34
Hibbins, Alastair P.
Higgins, Luke
Higuchi, Takuya
Hillenbrand, Rainer
Hobson, Peter
WED5f-P-40
Kim, Dong-Hee
WED5f-P-32
WED3o-O-02
Kim, Dongeon
MON2o-O-02
TUE4f-P-33
Jesacher, Alexander
WED5f-P-41
Kim, Teun-Teun
MON3s-I-02
TUE4f-P-37
Johansson, Peter
WED5f-P-18
Kim, Wonjae
WED5f-P-42
TUE5s-I-01
Kinaret, Jari
WED5f-P-39
TUE4f-P-53
AUTHORS' INDEX
Käll, Mikael
WED6s-O-02
Johansson, Robert
TUE4f-P-48
Jooshesh, Afshin
MON2o-O-04
Jooshesh, Armin
WED6o-O-02
Kinsey, Nathaniel
TUE4f-P-66
MON3s-I-01
Juan, Mathieu
WED2s-O-03
WED2o-I-04
Jung, Lena
WED5f-P-53
WED2o-I-01
Juodkazis, Saulius
TUE4f-P-52
Kinsler, Paul
Kippenberg, Tobias
TUE4f-P-02
Kiselev, Roman
THU4o-O-05
TUE5s-I-02
Kitamura, Ikuko
MON3o-I-03
Kabashin, Andrey
WED5f-P-26
Kitur, John
Hoffmann, Björn
WED5f-P-12
Kadlec, Christelle
WED5f-P-15
Kivshar, Yuri
Höfling, S.
TUE2s-O-02
Kadlec, Filip
WED5f-P-15
Höfner, Kathrin
WED5f-P-27
Kafesaki, Maria
Holzner, Felix
THU5o-O-04
Kahl, Philip
Hommelhoff, Peter
MON2o-O-02
Kaipurath, Rishad
MON2o-O-04
Kajikawa, Kotaro
TUE4f-P-28
TUE4f-P-04
TUE4f-P-26, TUE4f-P-27
TUE2s-I-07
THU4o-O-02
WED5f-P-56
Kivshar, Yuri S.
TUE4f-P-42
WED5f-P-19
TUE2s-O-04
56
TUE4f-P-65
WED2s-O-02
WED2s-O-05
WED6s-O-05
Hoffmann,, Jòn Mattis
TUE2o-I-02
MON3o-I-03
TUE4f-P-66
Klar, Thomas
WED5f-P-20
WED5f-P-21
Authors' Index
Kley, B.
TUE4f-P-46
Lippitz, Markus
WED5f-P-11
McPhedran, Ross
THU4o-O-02
TUE4f-P-44
Lipsanen, Harri
WED5f-P-42
Mehravar, Soroush
WED5f-P-42
WED5f-P-52
Liu, Changxu
TUE4f-P-67
WED5f-P-24
Liu, Hsuan-Wei
TUE4f-P-49
Meinzer, Nina
Kling, Matthias
MON2o-O-02
Liu, Hui
WED6s-I-01
Melikyan, Armen
Knoll, Armin W.
THU5o-O-04
Liu, Jun
TUE4f-P-68
Mertens, Jan
Koppens, F.
WED2o-I-01
Liu, Lixiang
TUE4f-P-51
Koppens, Frank H.L.
WED2o-I-04
Krasavin, Alexey
WED5f-P-47
WED5f-P-09
Meshkovskiy, Igor
TUE4f-P-58
WED5f-P-57
TUE4f-P-62
WED5f-P-72
Messner, Manuel
MON2o-O-02
WED5f-P-73
Meyer zu Heringdorf, Frank
Krstic, Vojislav
WED5f-P-48
Krüger, Michael
MON2o-O-02
Kuhlicke, Alexander
TUE4f-P-11
Lopez-Garcia, Martin
WED5f-P-55
TUE2s-O-04
Michel, Ann-Katrin
WED3s-O-04
Miksch, Cornelia
MON3o-O-02
TUE4f-P-16
THU4o-O-04
WED5f-P-27
TUE4f-P-06
MON4s-K-02
Krausz, Ferenc
Lodewijks, Kristof
WED5f-P-08
WED2o-O-03
MON2s-I-04
Liu, Na
WED5f-P-38
WED5f-P-43
Kulkarni, Vikram
TUE4f-P-68
Loschenov, V.B.
WED5f-P-01
Mikulic, Predrag
WED5f-P-06
Kumar, Arunandan
TUE4f-P-70
Lu, C.Y
TUE2s-O-02
Miller, David
MON2o-I-01
WED5f-P-08
WED5f-P-50
Lukin, Mikhail
THU6o-K-01
Minassian, Hayk
Kumar, Ashwani
THU4o-O-05
Luk, Ting
WED6o-O-03
Min, Bumki
MON3s-I-02
Kuo, Hao Chung
TUE4f-P-54
Miroshnichenko, A.
WED5f-P-24
Luk'yanchuk, Boris
MON3o-I-04
Kuwata-Gonokami, Makoto
MON3s-I-01
Lumer, Yaakov
Miroshnichenko, Andrey E.
WED5f-P-19
Kužel, Petr
WED5f-P-15
Lundeberg, Mark B.
WED2o-I-04
Mishra, Garima
WED5f-P-06
Kuznetsov, Arseniy
MON3o-I-04
Lyasota, Alexey
WED5f-P-64
Laberdesque, Romain
Lagoudakis, Pavlos
Laihtman, Alex
Lannebère, Sylvain
Mitchell-Thomas, Rhiannon
WED5f-P-49
TUE4f-P-20
Lyons, Ashley
TUE4f-P-05
Moerland, Robert
WED5f-P-32
WED5f-P-63
Maas, Ruben
TUE4f-P-57
Mohammadpour, Raheleh
WED5f-P-30
TUE4f-P-11
Molina-Sanchez, Alejandro
TUE4f-P-69
WED5f-P-36
Lapine, Mikhail
THU4o-O-02
Lapin, Zachary J.
WED3o-O-02
Lapsker, Igor
TUE4f-P-24
TUE4f-P-69
Maccaferri, Nicolò
MacDonald, Kevin F.
THU5o-O-03
TUE4f-P-61
Molina-Terriza, Gabriel
Monmayrant, Antoine
TUE4f-P-06
WED2s-O-03
TUE4f-P-14
TUE4f-P-20
Macklin, Chris
TUE4f-P-56
Magno, Giovanni
TUE4f-P-14
Moreau, Julien
TUE4f-P-12
Mahmoud, Ahmed
THU5s-I-01
Mork, J.
Lazarides, N.
WED5f-P-40
Maier, S.
TUE2s-O-02
Mrejen, Michael
Leach, Jonathan
THU4s-O-01
Maier, Stefan
WED5f-P-25
Mukhin, Ivan
WED5f-P-23
Leahu, Grigore
WED5f-P-44
Müller, Marcus
WED5f-P-48
Lee, Tung-Chun
MON3o-O-02
WED5f-P-66
Makaryan, Taron
Munkhbat, Battulga
WED5f-P-52
WED5f-P-24
Malyshev, Andrey
Lawrence, Mark
Lehr, D.
MON3s-O-03
WED6s-O-06
WED5f-P-08
Maleki, Alireza
TUE4f-P-76
Muskens, Otto
TUE2s-O-02
WED6o-O-05
WED5f-P-76,
WED5f-P-58
WED6o-O-04,
WED3s-O-03
TUE4f-P-55,
Léosson, Kristján
THU4o-O-05
Mani Tripathi, Saurabh
WED5f-P-06
TUE4f-P-47,
Levy, Amir
THU4s-O-04
Manjavacas, Alejandro
WED3s-I-01
TUE4f-P-40
TUE4f-P-73
Mark, Andrew
WED5f-P-66
THU3s-I-02
Mark, Andrew G.
Lei, Qin
Levy, Uriel
Lezec, Henri
TUE4f-P-15
TUE4f-P-68
TUE4f-P-72
MON3o-O-02
TUE4f-P-25
THU3o-O-02
Marocico, Cristian
Mutzafi, Maor
THU5s-O-03,
THU4s-O-04
Nalla, Venkatram
TUE4f-P-32,
WED5f-P-70
WED5f-P-46,
TUE4f-P-48
TUE4f-P-31
MON3s-I-04
Martikainen, Jani-Petri
Liebermeister, Lars
WED5f-P-74
Martínez, Alejandro
Li, Guanhai
THU5o-O-03
THU4o-O-03
Nash, Geoffrey
THU4o-O-04
Lilley, Govinda
WED5f-P-57
Martínez Saavedra, José Ramón
WED5f-P-54
Nasilowki, Michel
WED5f-P-50
Lima, Rodrigo
WED5f-P-58
Marti, Othmar
WED5f-P-08
Nasilowski, M.
TUE4f-P-16
Masala, Silvia
Lindenberg, Aaron
Lindfors, Klas
Lin, Fan-Cheng
WED5f-P-11
WED5f-P-32
Narimanov, Evgenii
TUE2s-I-07,
Liao, Chun Yen
MON2o-O-05
TUE4f-P-01
Mass, Thobias W.W.
TUE4f-P-49
TUE4f-P-70
TUE4f-P-67
Navau, Carles
WED5f-P-14
Navickaite, G.
WED2o-I-01
WED5f-P-13
Nechaev, Ilya
TUE5o-O-02
WED6s-O-05
THU5o-O-05
Neil, Mark
WED5f-P-25
TUE4f-P-72
Němec, Hynek
WED5f-P-15
TUE4f-P-65
Nemirovsky, Jonathan
THU4s-O-04
Lin, Hao Tsun
MON3s-I-04
Lin, Jia-De
WED5f-P-55
Mazurski, Noa
Lin, Sheng-Di
TUE4f-P-49
McCall, Martin
Lin, Shi-Wei
TUE4f-P-49
McCloskey, David
WED5f-P-48
Nesterov, Maxim
TUE4f-P-19
WED5f-P-14
McCutcheon, D.P.S.
TUE2s-O-02
Neubrech, Frank
WED5f-P-77
TUE2s-O-06
McDonald, Luke
Li, Peining
TUE4f-P-21
57
Ng, Charlene
TUE4f-P-50
AUTHORS' INDEX
Klar, Thomas A.
Authors' Index
Nguyen, Duc Minh
WED5f-P-46
Peyghambarian, Nasser
WED5f-P-42
Rogers, Edward T. F.
Nguyen, Vu Hoa
WED5f-P-13
Piestun, Rafael
WED5f-P-41
Roger, Thomas
Nickel, Bert
WED5f-P-29
Pietrzyk, Monika
TUE4f-P-04
TUE4f-P-05,
Nielsen, Michael G.
WED5f-P-16
Piglmayer, Klaus
WED5f-P-20
TUE4f-P-04
Nikitin, A.Y.
WED2o-I-01
Piro, Nicolas
Nikolay, Niko
WED5f-P-71
Nishijima, Yoshiaki
Noginov, Mikhail
TUE5s-I-02
Plankl, Markus
TUE2s-I-07
Plaza Ortega, Juan Manuel
Nolte, Stefan
THU4o-O-05
Nomura, Kensuke
THU5o-O-02
Nordlander, Peter
TUE4f-P-68
Nori, Franco
WED6o-O-02
Norwood, Robert
WED5f-P-42
Poddubny, Alexander
Notomi, Masaya
WED6o-I-06
Polini, Marco
Novotny, Lukas
WED3o-O-02
O'Brien, Kevin
TUE4f-P-56
Romanishkin, I.D.
WED2s-O-02
Romanov, Sergei
Polman, Albert
WED5f-P-01
MON2o-O-03
Ropers, Claus
TUE4f-P-35,
Rosa, Lorenzo
TUE5s-I-02
Rosanov, Nikolay
TUE4f-P-23
WED5f-P-51
THU1o-PL-01
TUE4f-P-41,
Rosenblatt, Gilad
TUE4f-P-36
WED3s-O-02,
Rotschild, Carmel
THU5s-O-03
TUE4f-P-43
Roy, Tapashree
WED3s-O-05
TUE2s-I-07
Rudra, Alok
WED2o-I-04
Russell, Philip
TUE6o-PL-01,
WED5f-P-64
TUE1o-PL-01
Ryabova, A.V.
WED5f-P-01
TUE4f-P-57,
Sakai, Kyosuke
THU5o-O-02
WED6s-O-02
O'Connor, Daniel
THU5s-O-04
THU5s-O-02
Sambles, J. Roy
Odenho Länk, Nils
TUE5s-I-01
Popov, A.V.
WED5f-P-01
Sambles, Roy
Odom, Teri
THU2s-I-01
Pors, Anders
TUE4f-P-03
Oganisian, Karen
TUE4f-P-07
Powell, David
THU4o-O-02
Samsonova, E.V.
Ogier, Robin
TUE5s-I-01
Poyli, Mohamed
TUE5o-O-02
Sánchez-Dehesa, José
Prat-Camps, Jordi
THU5o-O-05
Sanchez, Alvaro
THU5o-O-05
Principi, Alessandro
WED2o-I-04
Sandoghdar, Vahid
THU2o-I-01,
Prior, Yehiam
TUE4f-P-08,
Oliveira, Ana Julia
WED5f-P-10
Olivéro, Aurore
TUE4f-P-12
Orenstein, Meir
TUE4f-P-36,
TUE5o-O-03,
Orlov, Alexey A.
TUE4f-P-77
TUE2s-O-05
Prokopeva, Ludmilla
MON3o-I-03
TUE4f-P-42
TUE4f-P-34,
TUE4f-P-33
WED5f-P-01
TUE4f-P-37
WED5f-P-12
Saplacan, Gavril
Sarangan, andrew
TUE4f-P-45
WED5f-P-44
Puerto, Daniel
THU4o-O-03
Sarkar, Mitradeep
Orlovskii (Orlovskiy), Yurii (Yury) WED5f-P-01
Pugh, Jonathan
THU4o-O-04
Sasaki, Keiji
THU5o-O-02
Ou, Jun-Yu
Pukhov, K.K.
WED5f-P-01
Sasanpour, Pezhman
WED5f-P-30
Savinov, Vassili
TUE4f-P-60,
Säynätjoki, Antti
WED5f-P-42
WED3s-O-02,
TUE4f-P-43
Ouyang, Chunmei
MON2s-I-04,
Pustovalov, Victor
TUE4f-P-71
Pustovit, Vitaliy
WED5f-P-04
Ozcan, Aydogan
THU3o-I-03
Quélin, X.
Pakizeh, Tavakol
TUE4f-P-11
Quélin, Xavier
WED5f-P-50
Pan, J.W.
Papaioannou, Maria
Papasimakis, Nikitas
Parameswaran, S.
TUE4f-P-19
WED5f-P-75
Schiebel, Felix
TUE4f-P-39
Ran, Qiandong
WED6s-O-04
Schilling, Ryan
WED2s-O-02
WED6o-O-03
Rao, Shraddha
TUE4f-P-05
Schley, Ran
THU5s-O-03,
TUE4f-P-34
Paul, Philip
WED2s-O-01
WED5f-P-49
TUE4f-P-33,
Pasek, Michael
WED3s-O-04,
Radko, Ilya P.
Parke, Laura
Parzefall, Markus
MON3s-I-02
TUE4f-P-57
WED3o-O-02
TUE5o-I-01
THU5o-O-04
Rarity, John
TUE4f-P-24
THU4o-O-04,
WED5f-P-55
Schnakenberg, Uwe
Rauschenbeutel, Arno
WED5f-P-74
Schneider, Christian
Rawlings, Colin
THU5o-O-04
Schötz, Johannes
Raybould, Tim
TUE4f-P-39
Reininghaus, Martin
WED6s-O-05
Rekola, Heikki
Riesenberg, Rainer
TUE2o-O-03
THU5s-O-03,
WED5f-P-32
TUE4f-P-24,
TUE4f-P-64
THU4s-O-04
MON4o-K-01
TUE4f-P-38
Rigal, Bruno
WED5f-P-64
TUE4f-P-69
Riikonen, Juha
WED5f-P-42
Segovia, Paulia
Ritsch-Marte, Monika
WED5f-P-41
Selimis, Alexandros
Pertsch, Thomas
THU4o-O-05,
Roberts, Alexander
TUE2s-O-02
MON2o-O-02
Segev, Mordechai
Peled, Aaron
WED5f-P-24
WED5f-P-13
Segal, Nadav
Pedersen, Kjeld
Pertsch, T.
TUE4f-P-46
Schäferling, Martin
Quevedo-Teruel, Oscar
TUE4f-P-48
Parsons, James
Schaaf, Peter
TUE4f-P-41
TUE2s-O-02
Parbrook, Peter
Park, Hyun Sung
TUE4f-P-70
TUE4f-P-12
TUE4f-P-47
WED5f-P-05,
TUE4f-P-51
AUTHORS' INDEX
WED2s-O-05,
WED2s-O-06
Plum, Eric
TUE4f-P-41
THU4s-O-01,
TUE4f-P-38
Serkland, Darwin
WED5f-P-47
TUE4f-P-28
WED6o-O-03
WED5f-P-23
Roberts, Reece
WED2s-O-03
Shabat, Mohammed
Peschel, Ulf
WED5f-P-51
Rodriguez-Esquerre, Vitaly
WED5f-P-10
Shadrivov, Ilya
THU4o-O-02
Pesquera, A.
WED2o-I-01
Rodríguez-Fortuño, Francisco J.
TUE4f-P-01,
Shahbazyan, Tigran
WED5f-P-04
Shalaev, Vladimir
TUE2o-I-02,
Peters, Vanessa
THU5s-O-04,
TUE2s-I-07
THU4o-O-03
TUE4f-P-30
MON3o-I-03
Petit, Marlène
TUE4f-P-20
Petruck, Paul
TUE4f-P-64
Rodriguez-Oliveros, Rogelio
WED5f-P-27
Shalem, Guy
TUE4f-P-77
Petruskevicius, Raimondas
TUE4f-P-02
Roelli, Philippe
WED2s-O-05
Shalin, Alexander S.
TUE4f-P-42
Petruzzelli, Vincenzo
TUE4f-P-14
Rogers, Edward
WED5f-P-33
Shappir, Joseph
TUE4f-P-72
58
Authors' Index
WED5f-P-18,
Stokes, Jamie
TUE4f-P-59,
WED5f-P-02,
TUE5s-I-01
Valente, João
Strangi, Giuseppe
TUE4f-P-43,
THU4s-O-01,
THU4o-O-04
TUE4f-P-32
WED5f-P-69
Sheldon, Matthew
THU5s-O-02
Strek, Wieslaw
TUE4f-P-07
Van Breugel, Matt
WED2s-O-03
Sheng, Chong
WED6s-I-01
Shen, Tien Lin
TUE4f-P-54
Strohfeld, Nikolai
TUE4f-P-13
van de Groep, Jorik
THU5s-O-02
Strohfeldt, Nikolai
TUE4f-P-09
Vanetsev, Alexander
Shen, Xibo
WED5f-P-72
Suchowski, Haim
WED6o-O-05
Vaskevicius, Konstantinas
WED5f-P-01
TUE4f-P-02
Shen, Zexiang
WED5f-P-33
Sudhir, Vivishek
WED2s-O-02
Vavassori, Paolo
TUE4f-P-11
Shi, Lei
WED5f-P-32
Sulaev, Azat
TUE4f-P-31
Vázquez Vázquez, C.
Shimojo, Masayuki
TUE4f-P-27,
Sun, Handong
TUE4f-P-31,
Vélez, S.
WED2o-I-01
TUE4f-P-32
Veltri, Alessandro
WED5f-P-35,
TUE4f-P-26
Shishkin, Ivan
WED3s-O-03
Süßmann, Frederik
Shi, Xueliang
THU4o-O-05
Su, Xiaoqiang
Shi, Yumeng
TUE4f-P-06
Shi, Yunlong
MON2s-I-04,
Shum, Perry
Sibilia, Concita
Siddiqi, Irfan
TUE5o-I-01
Svedendahl, Mikael
TUE4f-P-51,
Verhagen, Ewold
TUE4f-P-57
MON2s-I-04
Verre, Ruggero
TUE5s-I-01,
Vezzoli, Stefano
THU4s-O-01,
TUE5s-I-01
Szabó, Gábor
Szalai, Anikó
TUE4f-P-63,
TUE4f-P-31,
WED5f-P-59
WED5f-P-33
WED5f-P-60
WED2o-O-03
Szekeres, Gábor
WED5f-P-59
TUE2s-O-04
Szenes, András
WED5f-P-59
Sildos, I.
WED5f-P-01
Taniguchi, Takashi
Silkin, Vyacheslav
TUE5o-O-02
Silveirinha, Mário
WED5f-P-36
Sigle, Daniel
Sigle, Wilfried
Silveiro, Iván
Sinclair, Hugo
Sipos, Áron
WED5f-P-18
WED5f-P-18,
WED5f-P-44
TUE4f-P-56
WED5f-P-69
MON2o-O-02
TUE4f-P-51
Vidal, Cynthia
TUE4f-P-46,
Vignale, Giovanni
WED2o-I-04
WED5f-P-52
Vitiello, Miriam
MON2o-O-03
WED2o-I-04
Viti, Leonardo
MON2o-O-03
WED5f-P-53,
Volz, Thomas
WED2s-O-03
WED3o-O-02,
Taubner, Thomas
WED2s-O-06,
TUE4f-P-16,
WED5f-P-34,
TUE2s-O-06,
Vukusic, Peter
TUE4f-P-21
TUE4f-P-35
WED3s-O-04,
Walter, Ramon
TUE4f-P-09,
WED5f-P-25
WED6s-O-05,
TUE4f-P-63
WED5f-P-14
Wang, Daqing
WED5f-P-12
Vo, Thanh Phong
WED5f-P-25
Taverne, Mike
WED5f-P-55
Wang, Dong
Skaar, Johannes
WED5f-P-17,
Taylor, Antoinette
MON2s-I-03
Wang, Lan
WED5f-P-28
Terao, Takamichi
TUE4f-P-74
Wang, Qian
Skirlo, Scott
THU4s-O-04
T. F. Rogers, Edward
Slobozhanyuk, Alexey
THU4o-O-02
Tikhodeev, Sergei
Soci, Cesare
WED5f-P-46,
TUE4f-P-31,
WED3s-O-05
Soljačić, Marin
THU4s-O-04
Somogyi, Anikó
WED5f-P-60,
Sorba, Lucia
Soukoulis, Costas M
Spektor, Grisha
Wang, Yunqi
WED5f-P-07
TUE4f-P-65
Wang, Zeng
TUE4f-P-40
WED5f-P-32
Wang, Zilong
Totero, Juan Sebastian
WED5f-P-19
Watanabe, Kenji
Totzeck, Michael
WED5f-P-11
TUE4f-P-31
WED6s-O-04
WED2o-I-04,
WED3o-O-02
TUE4f-P-37,
Weber, Ksenia
WED5f-P-77
Weber, Markus
WED5f-P-74
Trepanier, Melissa
WED6o-I-01
Weeber, J.C.
WED5f-P-25
Trushkov, Iurii
WED5f-P-56
Weeber, Jean-Claude
MON2o-O-03
Tsai, Din Ping
MON3s-I-04
Wegener, Martin
MON4s-K-01
Tsai, Wei-Yi
MON3s-I-04
Wei, Lu
THU5o-O-03
Tserkezis, Christos
WED5f-P-09,
Weinfurter, Harald
WED5f-P-74
WED2o-O-03
Weiss, Thomas
TUE4f-P-10,
TUE2o-I-01
TUE2s-O-05,
Tremain, Ben
TUE5o-O-03
Stantchev, Rayko
TUE4f-P-13
WED6s-O-02
TUE4f-P-63
Sonnefraud, Yannick
WED5f-P-76,
TUE4f-P-09,
Topf, Rene
TUE4f-P-61
Wang, Yudong
WED5f-P-61
Törmä, Päivi
THU5o-O-03,
WED5f-P-14
WED6o-O-05
Tischler, Joseph
WED5f-P-33,
TUE4f-P-31
WED3s-O-05
Wang, Yuan
Tittl, Andreas
WED6s-O-04
TUE4f-P-46
Wang, Tao
TUE4f-P-10
THU4s-O-01,
TUE4f-P-76
TUE4f-P-13
Sivan, Yonatan
So, Jin-Kyu
WED5f-P-69
TUE4f-P-52
Tsironis, G.P.
TUE4f-P-70
WED5f-P-50
TUE2s-O-04,
WED5f-P-40
TUE4f-P-19
Stavis, Samuel
THU3o-O-02
Tumkur, Thejaswi
Steinbrück, Andrea
WED5f-P-23
Unsleber, S.
TUE2s-O-02
Wendt, Joel
Steinert, M.
WED5f-P-24
Unterrainer, Karl
WED5f-P-57
Wenger, Tobias
WED5f-P-39
Sterl, Florian
TUE4f-P-09
Urbas, Augistine
WED5f-P-05
Wersäll, Martin
TUE5s-I-01,
Stern, Liron
Stockman, Mark
Stockman, Mark I.
TUE2s-I-07
WED6o-O-03
WED5f-P-02,
TUE4f-P-73
Urbas, Augustine
WED5f-P-04
MON2o-I-06,
Urbonas, Darius
TUE4f-P-02
WED5f-P-62
Vaia, Richard
WED5f-P-05
Westermeier, Christian
WED5f-P-29
Väkeväinen, Aaro
WED5f-P-32
Wilkinson, James
WED5f-P-63
MON2o-O-02
59
WED5f-P-18
AUTHORS' INDEX
Shegai, Timur
Authors' Index
Wilkowski, David
THU3s-O-01
Yang, Hui Ying
TUE4f-P-06
Wilson, Dalziel
WED2s-O-02
Yang, Zhong-Jian
TUE5s-I-01
Wintersperger, Karen
MON2o-O-02
Yan, Min
Wintz, Daniel
MON2s-I-01
TUE4f-P-17
Yin, Xinghui
Zhang, Xiang
TUE4f-P-56,
WED6o-O-05
Zhang, Xueqian
TUE4f-P-51,
MON2s-I-04
WED5f-P-73,
TUE4f-P-06
TUE4f-P-19,
Woessner, Achim
WED2o-I-04
WED3s-O-04
Wolf, Heiko
THU5o-O-04
Woods, Ben J. Q.
WED6s-O-02
TUE4f-P-39,
TUE4f-P-32,
WED5f-P-52
TUE4f-P-33
WED5f-P-33,
Wirtz, Ludger
Wörister, Christian
Wortmann, Dirk
Wubs, Martijn
WED6s-O-05
THU4s-I-02
Youngs, Ian
Zhao, Jun
Zheludev, Nikolay
WED6s-O-04
TUE4f-P-43,
WED3s-O-05
TUE4f-P-34,
Yuan, Guanghui
WED5f-P-33
TUE4f-P-39,
Yue, Song
WED5f-P-73
WED5f-P-46,
WED6o-O-02
THU4s-O-01,
Zalden, Peter
TUE4f-P-16
TUE4f-P-47,
TUE4f-P-49
Zayats, Anatoly
TUE4f-P-62
TUE4f-P-31,
Wu, Kan
TUE5o-I-01
Zayats, Anatoly V.
WED5f-P-47,
THU3s-O-01
Wu, Pin Chieh
MON3s-I-04
TUE4f-P-42,
TUE4f-P-61,
Wurtz, Gregory A.
THU5s-O-04,
WED5f-P-47
TUE4f-P-01,
WED3s-O-02,
THU5s-O-04
TUE4f-P-41,
Wu, Shiwei
WED3o-I-01
Zeitlmair, Martin
WED5f-P-74
THU5o-O-03,
Wuttig, Matthias
WED3s-O-04
Zengin, Gulis
WED5f-P-02
Xiao, Meng
MON2o-I-07
Zervas, Michalis
WED5f-P-63
Zheng, Xu
WED2o-O-02
Wu, Chihhui
WED6o-O-05
Wu, Hui Jun
MON3s-I-04
Wu, Jau-Yang
Xomalis, Aggelos
Xueqian, Xueqian
TUE4f-P-28
MON3s-O-03
Zagoskin, Alexander
Zhou, Lei
MON2s-I-02
Zhang, Daimeng
WED6o-I-01
Zhuromskyy, Oleksandr
WED5f-P-51
Zhu, Shining
WED6s-I-01
Zhang, Baile
Xu, Hao
MON3s-I-04
Zhang, Runren
WED6s-I-03
Xu, Ningning
MON2s-I-04,
Zhang, Shuang
MON3s-O-03,
Xu, Ting
Yamamoto, Takeaki
TUE4f-P-60
WED5f-P-55
Zhu, Wenqi
THU3o-O-02
TUE4f-P-51,
TUE4f-P-51,
Ziegler, Johannes
WED5f-P-52
MON3s-O-03
MON2s-I-04
Zubritskaya, Irina
TUE4f-P-51,
Zurutuza, A.
WED2o-I-01
TUE4f-P-25,
Zhang, Weili
TUE4f-P-11
THU3o-O-02
MON3s-O-03,
Zwiller, Val
TUE2s-I-03
THU5o-O-02
MON2s-I-04
Zywietz, Urs
WED5f-P-24
AUTHORS' INDEX
NOTES
60
Authors' Index
AUTHORS' INDEX
NOTES
61
Authors' Index
AUTHORS' INDEX
NOTES
62
Authors' Index
AUTHORS' INDEX
NOTES
63
Authors' Index
AUTHORS' INDEX
NOTES
64
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