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