Tuesday, 3 May 2011 - CLEO
Tuesday, 3 May 2011 - CLEO
Tuesday, 3 May 2011 - CLEO
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
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 />
QTuH • Plasmonic Field<br />
Enhancement and<br />
Concentration—Continued<br />
CTuN • Micro and Nano-<br />
Photonic Modulators—<br />
Continued<br />
QTuI • Complex Media—<br />
Continued<br />
JTuF • Joint Symposium on<br />
Quantum Communications III:<br />
Future Directions—Continued<br />
QTuH5 • 14:45<br />
Coupled Mode Theory of Field Enhancement in<br />
Complex Metal Nanoparticles, Greg Sun 1 , Jacob B.<br />
Khurgin 2 ; 1 Physics, Univ. of Massachusetts Boston,<br />
USA; 2 Electrical and Computer Engineering, Johns<br />
Hopkins Univ., USA. We present an analytical<br />
model that takes into account the coupling between<br />
the surface Plasmon modes in complex<br />
metal nanostructures for field enhancement in<br />
the gap of two coupled metal spheres.<br />
CTuN5 • 14:45 Invited<br />
40GHz Zero Chirp Single-ended EO Polymer<br />
Modulators with Low Half-wave Voltage,<br />
Guomin Yu 1 , Jonathan Mallari 1 , Hao Shen 1 ,<br />
Eric Miller 1 , Cailin Wei 1 , Vadim Shofman 1 , Dan<br />
Jin 1 , Baoquan Chen 1 , Hui Chen 1 , Raluca Dinu 1 ;<br />
1<br />
GigOptix Inc., USA. Broadband single-ended<br />
EO polymer modulators have been designed,<br />
fabricated and tested. These modulators have a<br />
bandwidth of 40.2GHz, chirp parameter of -0.03,<br />
half-wave voltage of 1.9V, extinction ratio of 20dB<br />
and optical insertion loss of 5.8dB.<br />
QTuI5 • 14:45<br />
Tight Binding Model Study of Photonic One-<br />
Way Edge Mode, Kejie Fang 1 , Zongfu Yu 1 , Shanhui<br />
Fan 1 ; 1 Stanford Univ., USA. A microscopic<br />
picture of the emergence of one-way edge mode<br />
in a honeycomb lattice of resonators made from<br />
magneto-optic material is obtained using tight<br />
binding model. One-way slow light scheme is<br />
proposed based on the edge mode.<br />
JTuF3 • 14:45<br />
Fiber Transport of Spatially Entangled Qutrits,<br />
Wolfgang Löffler 1 , Eric R. Eliel 1 , Han P. Woerdman 1 ,<br />
Tijmen G. Euser 2 , Michael Scharrer 2 , Philip Russell 2 ;<br />
1<br />
Leiden Inst. of Physics, Leiden Univ., Netherlands;<br />
2<br />
Max Planck Inst. for the Science of Light, Germany.<br />
We report the successful transport of spatially entangled<br />
qutrits through a photonic crystal fiber. We<br />
test entanglement in two 2D subspaces; in one of<br />
them we show violation of a Bell inequality.<br />
QTuH6 • 15:00<br />
Surface-Plasmon Coupled X-apertures for Optical<br />
Field Enhancement and Localization, Maxim<br />
Abashin 1,2 , Amit Agrawal 1,2 , Henri Lezec 1 ; 1 Center<br />
for Nanoscale Science and Technology, National<br />
Inst. of Standards and Technology, USA; 2 Maryland<br />
Nanocenter, Univ. of Maryland, USA. We design,<br />
fabricate and characterize periodic arrays of X-<br />
shaped nano-aperture antennas in Ag films. By<br />
matching the plasmonic resonance of individual<br />
antennas to that of the array, we demonstrate high<br />
field enhancement and localization.<br />
QTuI6 • 15:00<br />
Zero phase accumulation in negative-index<br />
photonic crystal superlattices, Serdar Kocaman<br />
1 , Mehmet Aras 1 , Pin-Chun Hsieh 1 , Nicolae<br />
C. Panoiu 2 , Mingbin Yu 3 , Dim-Lee Kwong 3 , Aaron<br />
Stein 4 , Chee Wei Wong 1 ; 1 Columbia Univ., USA;<br />
2<br />
Univ. College London, UK; 3 The Inst. of Microelectronics,<br />
Singapore; 4 Brookhaven National Lab,<br />
USA. We demonstrate zero phase delay in pathaveraged<br />
zero-index photonic crystal superlattices.<br />
Phase differences are measured with integrated<br />
Mach-Zehnder interferometers and all measurements<br />
agree well with theoretical analysis and<br />
simulations.<br />
JTuF4 • 15:00<br />
Quantum teleportation of Schrödinger’s cat<br />
wave-packets of light, Hugo Benichi 1 , Shuntaro<br />
Takeda 1 , Noriyuki Lee 1 , Ladislav Mista 2 , Radim<br />
Filip 2 , Elanor Huntington 3 , Akira Furusawa 1 ;<br />
1<br />
Department of Applied Physics, The Univ. of Tokyo,<br />
Japan; 2 Department of Optics, Palacký Univ.,<br />
Czech Republic; 3 Centre for Quantum Computation<br />
and Communication Technology, The Univ.<br />
of New South Wales, Australia. We demonstrate<br />
teleportation of Schrödinger’s cat wave-packets<br />
of light in a fully quantum regime. To further<br />
increase non-classicality of operations we propose<br />
two improvements: wave-packet frequency modematching;<br />
conditional teleportation.<br />
<strong>Tuesday</strong>, 3 <strong>May</strong><br />
QTuH7 • 15:15<br />
3D Imaging of the Scattering Pattern of Plasmonic<br />
Nanoantennas by Heterodyne Numerical<br />
Holography, Sarah Y. Suck 1 , Stéphane Collin 2 , Nathalie<br />
Bardou 2 , Yannick De Wilde 1 , Tessier Gilles 1 ;<br />
1<br />
ESPCI - Institut Langevin, France; 2 Laboratoire<br />
de Photonique et Nanostructures, LPN, France.<br />
Full-field heterodyne holography is applied to<br />
record the 3D field scattered by plasmonic gold<br />
nanoantennas in and out of the resonance wavelength,<br />
determined by spectroscopy. Results are<br />
compared to simulations.<br />
CTuN6 • 15:15<br />
Slow Light Enhanced E-O Polymer Nano-<br />
Photonic Modulator with Ultra-High Effective<br />
In-Device r33, Alan Wang 1 , Che-Yun Lin 2 , Swapnajit<br />
Chakravarty 1 , Jingdong Luo 3 , Alex K.-Y. Jen 3 ,<br />
Ray T. Chen 2 ; 1 Omega Optics, Inc., USA; 2 The Univ.<br />
of Texas at Austin, USA; 3 The Univ. of Washington,<br />
USA. We demonstrate an E-O polymer infiltrated<br />
silicon photonic crystal slot waveguide modulator.<br />
Enhanced by improved poling efficiency and slow<br />
light effect, we achieve an ultra-high effective r33<br />
of 735pm/V and VπL of only 0.44Vmm.<br />
QTuI7 • 15:15<br />
Optical Tractor Beams in Scattering-induced<br />
Left-Handed Fields, Alessandro Salandrino 1 ,<br />
Demetrios Christodoulides 1 ; 1 CREOL, Univ. of<br />
Central Florida, USA. We show here that left<br />
handed electromagnetic fields can be established<br />
over extended regions in fully dielectric structures.<br />
Particles immersed in such field configurations<br />
would move upstream against the radiation pressure<br />
of the incident wave.<br />
JTuF5 • 15:15<br />
Experimental security analysis a four-photon<br />
private state, Krzysztof Dobek 1,2 , Michal Karpinski 3 ,<br />
Rafal Demkowicz-Dobrzanski 3 , Konrad Banaszek 1,3 ,<br />
Pawel Horodecki 4 ; 1 Inst. of Physics, Nicolaus Copernicus<br />
Univ., Poland; 2 Faculty of Physics, Adam<br />
Mickiewicz Univ., Poland; 3 Faculty of Physics, Univ.<br />
of Warsaw, Poland; 4 Faculty of Applied Physics and<br />
Mathematics, Technical Univ. of Gdansk, Poland.<br />
We report experimental generation of a noisy<br />
entangled four-photon state that exhibits a separation<br />
between secure key contents and distillable<br />
entanglement. This difference is exposed by a<br />
detailed analysis of its privacy properties.<br />
14:00–16:00 Market Focus: Meeting Clinical Needs with Photonics, Exhibit Hall F, 100 Level<br />
15:30–16:00 Coffee Break, Exhibit Halls E and F, 100 Level<br />
NOTES<br />
_________________________________________________________________________________________________________________<br />
_________________________________________________________________________________________________________________<br />
_________________________________________________________________________________________________________________<br />
_________________________________________________________________________________________________________________<br />
_________________________________________________________________________________________________________________<br />
_________________________________________________________________________________________________________________<br />
_________________________________________________________________________________________________________________<br />
_________________________________________________________________________________________________________________<br />
108<br />
<strong>CLEO</strong>: <strong>2011</strong> • 1–6 <strong>May</strong> <strong>2011</strong>