Tuesday, 3 May 2011 - CLEO

Room 318-320 Room 321-323 Room 324-326 Room 314
CLEO: QELS-
Fundamental Science
CLEO: Science
& Innovations
CLEO: QELS-
Fundamental Science
JOINT
13:45–15:30
QTuH • Plasmonic Field
Enhancement and Concentration
Hatice Altug, Boston Univ., USA,
Presider
13:45–15:30
CTuN • Micro and Nano-
Photonic Modulators
William Green, IBM Res., USA,
Presider
13:45–15:30
QTuI • Complex Media
Henri Lezec, NIST, USA, Presider
13:45–15:30
JTuF • Joint Symposium on
Quantum Communications III:
Future Directions
Jane Nordholt, Los Alamos Natl.
Lab, USA, Presider
QTuH1 • 13:45
Surface Plasmon Resonances in Silver Bowtie
Nanoantennas with Varied Bow Angles, Wei
Ding 1 , Renaud Bachelot 1 , Sergei Kostcheev 1 , Pascal
Royer 1 , Roch Espiau de Lamaestre 2 ; 1 Univ. of Technology
of Troyes, France; 2 CEA, LETI, MINATEC,
France. Numerical simulations and experimental
measurements to plasmon resonances in Ag
Bowtie nanoantennas show that, as the bow angle
increases, one fundamental resonance blue- and
then red-shifts; two types of high-order resonances
emerge at large angles.
CTuN1 • 13:45
Fast and Compact Silicon Photonic Crystal
Modulator, Hong C. Nguyen 1 , Yuya Nakano 1 , Mizuki
Shinkawa 1 , Norihiro Ishikura 1 , Toshihiko Baba 1 ;
1
Dept. of Electrical and Computer Engineering,
Yokohama National Univ., Japan. We demonstrate
5 Gbps modulation in a 200 μm-length photonic
crystal Mach-Zehnder modulator, fabricated using
CMOS processes. VπL < 0.029 V.cm was
observed under DC operation. RF modulation
was performed at 2.2 V peak-to-peak.
QTuI1 • 13:45
Ceramic Plasmonic Components for Optical
Metamaterials, Gururaj V. Naik 1 , Alexandra
Boltasseva 1,2 ; 1 School of Electrical & Computer
Engineering and Birck Nanotechnology Center, Purdue
Univ., USA; 2 Photonics Engineering, Technical
Univ. of Denmark, Denmark. The performance of
metamaterial and transformation-optics devices is
limited by losses in their plasmonic components.
We show that ceramics (heavily doped-zinc oxide
and titanium nitride) could help in overcoming the
loss issue in the optical range.
JTuF1 • 13:45 Invited
Recent Progress in Quantum Teleportation
Experiments, Jian-Wei Pan 1 ; 1 Hefei National Lab
for Physical Science at The Microscale and Department
of Modern Physics, Univ. of Science and
Technology of China, China. Quantum teleportation
is central to quantum communication, and
plays an important role in a number of quantum
computation protocols. In this talk, I will give a
review about recent experimental progress about
quantum teleportation
QTuH2 • 14:00
Plasmonic junctions with cucurbit[5]uril ‘glue’:
fabrication of precise sub-nm junctions in gold
nanoparticle assemblies, Richard W. Taylor 1 , Tung
C. Lee 2 , Oren A. Scherman 2 , Ruben Esteban 3 , Javier
Aizpurua 3 , Fumin Huang 1 , Jeremy J. Baumberg 1 ,
Sumeet Mahajan 1 ; 1 Physics, Univ. of Cambridge,
UK; 2 Chemistry, Univ. of Cambridge, UK; 3 Donostia
International Physics Center, Spain. Aggregation
of Au nanoparticles with rigid cucurbit[5]uril
molecules generates fixed inter-particle separation
of 0.91nm, exhibiting discrete plasmonic modes
which elucidate nanoscale growth and serve as
molecular-recognition based SERS substrates.
CTuN2 • 14:00
Ultra-low Power Fiber-coupled Gallium Arsenide
Photonic Crystal Cavity Electro-optic
Modulator, Gary Shambat 1 , Bryan Ellis 1 , Arka
Majumdar 1 , Jelena Vuckovic 1 ; 1 Stanford Univ., USA.
We demonstrate electro-optic modulation in a
GaAs laterally doped photonic crystal cavity diode
with ultra-low switching energy of several fJ/bit.
A short non-radiative carrier lifetime allows fast
switching with an upper threshold of 100 GHz.
QTuI2 • 14:00
Nonlocality in Multilayered Metal-Dielectric
Optical Metamaterials, Alexey A. Orlov 1 , Pavel M.
Voroshilov 1 , Pavel A. Belov 1,2 , Yuri S. Kivshar 1,3 ; 1 St.
Petersburg State Univ. ITMO, Russian Federation;
2
Queen Mary Univ. of London, UK; 3 Nonlinear
Physics Centre, The Australian National Univ., Australia.
We have accomplished rigorous dispersion
analysis and showed clearly impact of nonlocality
on properties of multilayered metal-dielectric
metamaterial. The main discovered effect is an
appearance of additional extraordinary waves in
the metamaterial.
Tuesday, 3 May
QTuH3 • 14:15
Simultaneous Nanometer and Femtosecond
Spatiotemporal Control of Optical Fields,
Samuel Berweger 1 , Joanna Atkin 1 , Xiaoji Xu 1 ,
Robert Olmon 1 , Markus B. Raschke 1 ; 1 Department
of Physics and JILA, Univ. of Colorado, Boulder,
USA. We demonstrate independent spatiotemporal
control of optical fields on nanometer and
femtosecond scales, enabled by the adiabatic
and mode-matched surface plasmon polariton
nanofocusing ability of 3D Au tips, combined with
femtosecond pulse-shaping.
QTuH4 • 14:30
Hyperspectral Nanoscale Imaging on Dielectric
Substrates with Coaxial Optical Antenna
Scan Probes, Alexander Weber-Bargioni 1 , Adam
Schwartzberg 1 , Matteo Cornaglia 1 , Frank Ogletree 1 ,
Reuven Gordon 2 , YuanJie Pang 2 , Stefano Cabrini 1 ,
Peter James Schuck 1 ; 1 Molecular Foundry, Lawrence
Berkeley National Lab, USA; 2 Dept. of Electrical and
Computer Engineering, Univ. of Victoria, Canada.
We have demonstrated hyperspectral tip-enhanced
Raman imaging on dielectric substrates using
nano-fabricated coaxial antenna tips. A Raman
map of CNTs image lead to unprecedented chemical
mapping with a resolution of ~ 20 nm.
CTuN3 • 14:15
Non-Blocking Operation of a Tunable Compact
Optical Filter with Large FSR, Hugo L. Lira 1 ,
Michal Lipson 1,2 , Carl B. Poitras 1 ; 1 Cornell Univ.,
USA; 2 Kavli Inst. at Cornell, USA. We fabricate
and characterize a CMOS-compatible, Mach-
Zehnder-coupled, 2nd-order-ring-resonator filter
with doubled free spectral range and demonstrate
non-blocking operation while tuning it to a new
wavelength.
CTuN4 • 14:30
DPSK Modulation Using a Microring Modulator,
Kishore Padmaraju 1 , Noam Ophir 1 , Sasikanth
Manipatruni 2 , Carl B. Poitras 2 , Michal Lipson 2 ,
Keren Bergman 1 ; 1 Electrical Engineering, Columbia
Univ., USA; 2 Electrical and Computer Engineering,
Cornell Univ., USA. We present the first
experimental demonstration of DPSK modulation
using a microring modulator. A 250-Mb/s electrooptic
silicon microring modulator is shown with a
measured 2-dB power penalty in comparison to a
commercial LiNbO 3 phase modulator.
QTuI3 • 14:15
Paper Withdrawn
QTuI4 • 14:30
Spin Symmetry Breaking in Thermal Emission,
Erez Hasman 1 , Vladimir Kleiner 1 , Kobi Frischwasser
1 , Nir Dahan 1 , Yuri Gorodetski 1 , Igal Balin 1 ;
1
Russell Berrie Nanotechnology Inst., Technion-Inst.
for Technology of Israel, Israel. We report on a spinsymmetry
breaking in thermal radiation from a
coupled thermal antenna array, supporting localized
phonon-polaritons, whose local anisotropy
axis is rotated in space.
JTuF2 • 14:15 Invited
Triple Photons and Triple Slits - a New Frontier
in Quantum Mechanics Tests, Thomas Jennewein
1 , H. Hubel 1 , D. Hamel 1 , A. Fedrizzi 2 , S.
Ramelov 3 , K. Resch 1 , U. Sinha 1 , C. Couteau 4 , R.
Laflamme 1 , Gregor Weihs 6 ; 1 Univ. of Waterloo,
Canada, 2 Dept. of Physics and Centre for Quantum
Computer Technology, Univ. of Brisbane, Australia,
3
Inst. for Quantum Optics and Quantum Information,
Austrian Acad. of Sciences, Austria, 4 Lab de
Nanotechnologie et d’Instrumentation Optique,
Univ. de Technologie de Troyes, France, 5 Perimeter
Inst. for Theoretical Physics, Canada, 6 Inst. für
Experimentalphysik, Univ. Innsbruck, Austria. We
will present our recent results in the generation of
triple photons as well as triple slits, both providing
interesting perspectives on the foundations
of quantum mechanics and quantum optics. The
creation of correlated triple photons [1] is a highly
desirable process for research on quantum optics,
novel states of three-photon entanglement, and applications
in quantum information processing.
104
CLEO: 2011 • 1–6 May 2011