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TECHNICAL PROGRAM THURSDAY 27 SEPTEMBER<br />
GRAND BALLROOM F GRAND BALLROOM G HARBOUR ROOM A GRAND BALLROOM A<br />
remove two electrons, we show a path to realtime<br />
probing of multielectron correlations in<br />
complex systems - launched and probed by<br />
multiphoton tunnel ionization.<br />
endomicroscopy technologies which can<br />
perform nonlinear optical imaging with an ultracompact<br />
fiber-optic platform of a 2mm diameter.<br />
Two-photon fluorescence and SHG imaging of<br />
unstained biological tissues will be reported.<br />
Technology, Tsukuba, Ibaraki, Japan,<br />
T. Yamamoto, T. Nakamura, <strong>Photonics</strong><br />
Electronics Technology Research Association,<br />
Tsukuba, Ibaraki, Japan and Y. Arakawa,<br />
University of Tokyo, Tokyo, Japan<br />
We present high-density hybrid integrated light<br />
sources for a photonics-electronics convergence<br />
system. We have developed a hybrid integration<br />
scheme of high-density multichannel laser-diode<br />
chips on a silicon photonics platform with a<br />
novel spot size converter.<br />
capable of rectifying ultrafast pulses of less than<br />
100fs duration.<br />
ThFF2 3:45 PM - 4:00 PM<br />
Surface Enhanced Raman Scattering<br />
Excited by Dielectric-loaded Surface<br />
Plasmon Polariton Waveguides, J. Xiao,<br />
J. Liu, Z. Zheng, Y. Bian, G. Wang and S. Li,<br />
Beihang University, Beijing, China<br />
By leveraging the plasmonic mode of dielectricloaded<br />
surface plasmon waveguide, a strong<br />
enhancement of the SERS signal between adjacent<br />
core-shell nanoparticles could be realized<br />
through coupling to the propagating SPP.<br />
ThCC2 4:00 PM - 4:15 PM<br />
A Narrow Linewidth Picosecond Pulsed<br />
Laser System for Hydrogen Ion Beam<br />
Stripping, Y. Liu, C. Huang and C. Deibele,<br />
Oak Ridge National Laboratory, Oak Ridge, TN,<br />
USA<br />
We report a picosecond pulsed, narrow<br />
linewidth, mode-hopping free laser system in a<br />
MOPA configuration. The laser can produce 70<br />
ps/402.5 MHz/MW micro-pulses operating in a<br />
10 µs/10 Hz macropulse mode.<br />
ThDD2 4:00 PM - 4:15 PM<br />
The Optical Manipulation of Micron<br />
Particles and Bio-Samples with Counter-<br />
Propagating Bessel-Like Beam of All<br />
Fiber Structure, S. Lee, I. Shin, K. Oh, Yonsei<br />
University, Seoul, Korea, M. Son and J.-S. Shin,<br />
Yonsei University College of Medicine, Seoul,<br />
Korea<br />
All-fiber Bessel-like beam generator achieved<br />
optical trapping and displacement control of<br />
micron particles. A pair of generators being<br />
compatible with lab on a chip system can be<br />
good tools for manipulation and analysis of biosample.<br />
ThEE2 4:00 PM - 4:30 PM (Invited)<br />
CMOS-Compatible VCSEL, P. Viktorovitch,<br />
C. Sciancalepore, Institut des Nanotechnologies<br />
de Lyon, Ecully, France, B. Ben Bakir,<br />
Commissariat à l’Énergie Atomique, Grenoble,<br />
France, X. Letartre, Institut des Nanotechnologies<br />
de Lyon, Ecully, France, N. Olivier, Commissariat<br />
à l’Énergie Atomique, Grenoble, France,<br />
C. Seassal, Institut des Nanotechnologies de<br />
Lyon, Ecully, France and J. Harduin,<br />
Commissariat à l’Énergie Atomique, Grenoble,<br />
France<br />
CMOS-compatible III-V/Si vertical-cavity<br />
surface-emitting lasers (VCSELs) based on a<br />
double set of photonic crystal reflectors are<br />
demonstrated, showing single-mode continuous-wave<br />
operation at 1.55-µm with thresholds<br />
in the sub-mW range.<br />
ThFF3 4:00 PM - 4:15 PM<br />
Closed-Form Modelling of Plasmonic<br />
Mesh Structures, C. Lin, M. A. Swillam and<br />
A. S. Helmy, University of Toronto, Toronto, ON,<br />
Canada<br />
A general purpose analytical model for Metal-<br />
Insulator-Metal mesh structures is developed by<br />
incorporating a modified characteristic<br />
impedance model into S-matrix formalism. The<br />
model provides intensity and phase information<br />
within 2% discrepancy compared to numerical<br />
methods.<br />
ThCC3 4:15 PM - 4:45 PM (Invited)<br />
Development of Highly Spatial-Coherent,<br />
13.5-nm High-Order Harmonics for EUVL<br />
Mask Inspection Using Coherent EUV<br />
Scatterometry Microscope, Y. Nagata,<br />
RIKEN, Wako, Saitama, Japan, T. Harada,<br />
M. Nakasuji, University of Hyogo, Kamigori,<br />
Hyogo, Japan, H. Kinoshita and K. Midorikawa,<br />
RIKEN, Wako, Saitama, Japan<br />
We have developed low divergence, spatially<br />
coherent, high-order harmonics using commercial<br />
sub-TW laser system. A 2nm-wide line<br />
defect in an 88-nm line-and-space pattern was<br />
successfully detected in the diffraction image<br />
using the 59th harmonics.<br />
ThDD3 4:15 PM - 4:30 PM<br />
Radiation Pressure Induced Optical<br />
Syringe Within Micro Fluidic Channel,<br />
H. Choi, M. Park and K. Oh, Yonsei University,<br />
Seoul, Korea<br />
Laser induced optical force within a micro liquid<br />
channel has been demonstrated by mode<br />
conversion between different refractive index<br />
boundaries. We modulated input laser power and<br />
refractive indexes and measured optical power.<br />
ThFF4 4:15 PM - 4:30 PM<br />
Minimal Formulation of the Resonance<br />
Properties of Metallic Nanoslit Arrays,<br />
J. W. Yoon, University of Texas at Arlington,<br />
Arlington, TX, USA, M. J. Jung, S. H. Song,<br />
Hanyang University, Seoul, Korea and<br />
R. Magnusson, University of Texas at Arlington,<br />
Arlington, TX, USA<br />
We propose an analytic theory of resonances in<br />
metallic nanoslit arrays. This is a minimal formulation<br />
of the essential physics involved in the<br />
resonance interactions of surface plasmonpolaritons<br />
and cavity modes.<br />
ThDD4 4:30 PM - 4:45 PM<br />
Analyses of Micro-Fluid Flow in a Hollow<br />
Core Fiber based on Optical Interference,<br />
M.-H. Lee, S.-H. Kim, E.-S. Kim, J.-T. Kim, and<br />
I.-K. Hwang, Chonnam National University,<br />
Gwangju, Chonnam, Korea<br />
Speed and position of a fluid in a hollow optical<br />
fiber was successfully monitored based on<br />
optical interference. The change of surface curvature<br />
of the fluid related to optical reflectivity could<br />
be also measured.<br />
ThEE3 4:30 PM - 4:45 PM<br />
Nanomembrane Transfer Printing for MR-<br />
VCSELs on Silicon, D. Zhao, S. Chuwongin,<br />
University of Texas at Arlington, Arlington, TX,<br />
USA, H. Yang, Semerane, Inc., Arlington, TX,<br />
USA, J.-H. Seo, University of Wisconsin-<br />
Madison, Madison, WI, USA, Y. Shuai, W. Yang,<br />
University of Texas at Arlington, Arlington, TX,<br />
USA, J. Berggren, M. Hammar, Royal Institute of<br />
Technology, Stockholm, Sweden, Z. Ma,<br />
University of Wisconsin-Madison, Madison, WI,<br />
USA and W. Zhou, University of Texas at<br />
ThFF5 4:30 PM - 4:45 PM<br />
The Mie Theory and Its Nanocircuits and<br />
Nanoimpedances for Plasmonic<br />
Nanoparticles, L. A. Ambrosio and<br />
H. E. Hernandez-Figueroa, State University of<br />
Campinas, Campinas, São Paulo, Brazil<br />
We outline the differences between the nanocircuits<br />
derived from the dipole and the Mie<br />
theories, revealing how important a more accurate<br />
theory is in the derivation of the<br />
nanoimpedances of plasmonic nanospheres.<br />
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