| 4 Quantum Electronics |
| 4.2 Photonic
Nano-Structures and Relating Phenomena |
| Mar. 22 9:30〜16:15 |
| 22a-L- / III |
| |
1 |
Preparation of three-dimensional photonic crystals
using TiO2 and PZT by sol-gel method |
Shizuoka University 1, Kitami Institute of Technology
2, Shizuoka University 3 *Hiroshi Koyama 1, Tomoya Ohno 2, Hisao Suzuki
3, Masayuki Fujimoto 1 |
| |
2 |
Control of Colloidal Photonic Crystal Structures
Using Centrifugation |
Hokkaido University 1,Sanyo Chemical Industries,
Ltd. 2 *Tomomi Takahashi 1,Kosei Ueno 1Vygantas Mizeikis 1,Saulius Juodkazis
1,Hiroaki Misawa 1,Toshihiro Tanimura 2,Kohei Maeda 2 |
| ▲ |
3 |
Laser-microfabricated low index-contrast photonic
crystal structures for optical sensing applications |
JST-CREST 1, Hokkaido Univ., 2 *Vygantas Mizeikis
1, Saulius Juodkazis 1.2, Vygandas Jarutis 1, Hiroaki Misawa 1.2 |
| |
4 |
Development of three-dimensional photonic crystals
with stacked point defects |
Kyoto Univ. 1, JST 2 *S. Kawashima 1, K. Ishizaki
1, M. Okano 1,2, M. Imada 1, S. Noda 1 |
| |
5 |
Evaluation of Photoluminescence Characteristics
of Point Defect Cavities in 3D Photonic Crystarl with 17 Layers |
Kyoto Univ. Ishizaki Kenji 1, Ogawa Shinpei 1,
Furukawa Tetsuya 1, Noda Susumu 1 |
| |
|
Break 10:45〜11:00 |
|
| |
6 |
Fabrication of 3-dimensional silicon photonic crystal
structures by double directional etchings |
QNERC & Dept. of Physical Electronics, Tokyo Tech.
1, Dept. of Electrical & Electronic Eng., Tokyo Univ. of A&T 2, SORST-JST
3 *Daihei Hippo 1,3, Kei Urakawa 2, Yoshiyuki Kawata 1, Yoshishige Tsuchiya
1,3, Hiroshi Mizuta 1,3, Nobuyoshi Koshida 2,3, and Shunri Oda 1,3
|
| △ |
7 |
Fabrication of woodpile 3D photonic crystals using
double angled-etching technique |
Kyoto Univ. 1, JST 2 *Takahashi Shigeki 1, Imada
Masahiro 1, Okano Makoto 1,2, Nakamori Takeshi 1, Noda Susumu 1 |
| |
8 |
Analysis of woodpile 3D photonic crystals fabricated
by double angled-etching technique |
Kyoto Univ. 1, JST 2 *Okano Makoto 1,2, Takahashi
Shigeki 1, Nakamori Takeshi 1, Imada Masahiro 1, Noda Susumu 1 |
| |
9 |
Woodpile-type photonic crystals composed of air
columns (3) |
NCRC, Univ. of Tokyo 1, OITDA 2 Katsuyama Toshio
1,2, Hosomi Kazuhiko 1,2, Goto Shigeo 1,2, Yamada Hiroji 1, Aoki Kanna 1,
Arakawa Yasuhiko 1 |
| △ |
10 |
Fabrication of Woodpile Structure for Optical Wavelengths |
NCRC Univ. Tokyo 1, NIMS 2 *Aoki Kanna 1, Miyazaki
Hideki 2, Iwamoto Satoshi 1, Tatebayashi Jun 1, Nishioka Masao 1, Arakawa
Yasuhiko 1 |
| |
11 |
Theoretical analysis on 2D photonic-crystal slab
of slanted pores |
Kyoto Univ. 1,ALPS Electric 2 *Kitagawa Hitoshi
1,2,Tanaka Yoshinori 1,Asano Takashi 1,Noda Susumu 1 |
| |
|
Lunch 12:30〜13:30 |
|
| 22p-L- / III |
| |
1 |
Fabrication and characterization of InP/InGaAs/InP
air-hole array structure having quantum well by MOVPE |
RCIQE Hokkaido Univ 1 *Hashimoto Shinji 1,Takeda
Junichiro 1,Hara Shinjiro 1,Motohisa Junichi 1,Fukui Takashi 1 |
| |
2 |
Selective area MOVPE and PL characterization of
two-dimensional air-hole type photonic crystals having an AlGaAs/GaAs quantum
well |
Hokkaido Univ. 1 Takeda Junichiro 1, Motohisa Junichi
1, Hashimoto Shinji 1, Yang Lin 1, Fukui Takashi 1 |
| |
3 |
Fabrication of AlGaAs photonic crystals using HI
and Cl2 plasma |
NTT Basic Research Laboratories Takehiko Tawara
1, Tetsu Ito 1, Takasumi Tanabe 1, Kouta Tateno 1, Eiichi Kuramochi 1, Masaya
Notomi 1, Hidetoshi Nakano 1 |
| ▲ |
4 |
A new fabrication technique for photonic crystals
using gas cluster ion beam |
Japan Aviation Electronics Industry, Ltd. 1, Kyoto
University 2 Emmanuel Bourelle 1, Akiko Suzuki 1, Akinobu Sato 1, Toshio
Seki 2, Jiro Matsuo 2 |
| △ |
5 |
Direct broadband observation of guide-mode in 2D
photonic crystal waveguides by spectroscopic angle-resolved prism coupling
technique |
RIKEN 1, Tokyo Inst. of Tech. 2 *Inoue Shin-ichiro
1,2, Aoyagi Yoshinobu 2,1 |
| |
|
Break 14:45〜15:00 |
|
| △ |
6 |
Estimation of equivalent refractive index for the
photonic crystal slab by 2D and 3D FDTD method |
Nagaoka Univ. of Technol. 1 *Sugawara Hiroya 1,
Kambayashi Toshio 1 |
| |
7 |
Focusing grating coupler for 2D photonic crystal
waveguide |
U. Tsukuba 1, Ghent Univ. 2, AIST 3 *Akio Mizutani
1, Yoshimasa Sugimoto 1, 3, Nobuhiko Ozaki 1, Yoshinori Watanabe 1, Yoshiaki
Takata 1, Frederik Laere 2, Roel Baets 2, Naoki Ikeda 3, Kiyoshi Asakawa
1 |
| |
8 |
Sidelobe reduction in Si photonic wire AWG demultiplexer
(III) Reduction of phase error |
Yokohama Nat'l Univ. *Ohno Fumiaki 1, Sasaki Kosuke
1, Baba Toshihiko 1 |
| |
9 |
Theoretical analysis of Si photonic wire waveguide
directional coupler - comparison between exact and approximate solutions
- |
NEC Fundamental and Environmental Research Lab. *Jun
Ushida, Akiko Gomyo, Masatoshi Tokushima |
| |
10 |
Optical filter using line-defect waveguide-mode
gap with rod-type square-lattice photonic crystal slab |
NEC Corp. 1 *Gomyo Akiko 1, Ushida Jun 1, Tokushima
Masatoshi 1 |
| 4.2 Photonic
Nano-Structures and Relating Phenomena |
| Mar. 23 9:00〜17:20 |
| 23a-L- / III |
| |
1 |
Transmission characteristics of Si one-dimensional
photonic crystals embedded with polymer |
NCRC, Univ. of Tokyo 1, OITDA 2, Hitachi CRL 3,
NEC corp. 4 *K. Hosomi 123, M. Tokushima 4, H. Yamada 1, S. Goto 123, T.
Katsuyama 12, H. Yamada 24, Y. Arakawa 1 |
| |
2 |
OADM using mode gap with hexagonal-hole lattice
PC slab waveguides (2) |
NEC 1, OITDA 2, NCRC, IIS & RCAST Univ. of Tokyo
3 *Gomyo Akiko 1,2, Ushida Jun 1,2, Chu Tao 2, Yamada Hirohito 1,2, Ishida
Satomi 3, Arakawa Yasuhiko 3 |
| |
3 |
Reconfigurable optical add-drop multiplexer (R-OADM)
based on silicon photonic crystal slab waveguides |
OITDA 1, NEC Corp. 2, Univ. of Tokyo 3
Tao Chu 1, Akiko Gomyo 1,2, Jun Ushida 1,2, *Hirohito Yamada 1,2, Satomi
Ishida 3, Yasuhiko Arakawa 3
|
| |
4 |
2D PC Slab Add/Drop Filter Integrated with Polarization
Mode Converter |
Kyoto Univ. 1 *Tanaka Yoshinori 1,Asano Takashi
1,Noda Susumu 1 |
| |
5 |
Estimation of Delay Time in Group Delay Devices
Based on Chirped Photonic Crystal Waveguide |
Yokohama Nat'l Univ. 1 *Baba Toshihiko1, Mori Daisuke2 |
| |
6 |
A consideration on Tunable Delay Time in Group
Delay Devices Based on Chirped Photonic Crystal Waveguide |
Yokohama Nat'l Univ. 1 *Mori Daisuke 1, Baba Toshihiko
1 |
| |
|
Break 10:30〜10:45 |
|
| |
7 |
Increase in delay time and dispersion of multiple
1D coupled-defect-type photonic crystals (2) |
NCRC, Univ. Tokyo 1
OITDA 2
Hitachi CRL 3 *Katsuyama Toshio 1,2, Goto Shigeo 1,2,3, Hosomi Kazuhiko
1,2,3, Fukamachi Toshihiko 1,2,3, Arakawa Yasuhiko 1 |
| |
8 |
Fabrication and Characterization of Optical Group
Delay Device of Photonic Crystal Coupled Waveguides |
Yokohama Nat'l Univ. 1 *Kawasaki Takashi 1, Mori
Daisuke 1, Kubo Shosaku 1, Baba Toshihiko 1 |
| |
9 |
Transmission increase at modified boundaries between
different group velocities in the 2D photonic crystal waveguide |
Univ. of Tsukuba 1, AIST 2 *Ozaki Nobuhiko 1, Takata
Yoshiaki 1, Watanabe Yoshinori 1, Ikeda Naoki 2, Mizutani Akio 1, Sugimoto
Yoshimasa 1,2, Asakawa Kiyoshi 1 |
| △ |
10 |
Fundamental Characteristics of Optical Group Delay
Device by Chirped Photonic Crystal Waveguides (III) -Optimization of Optical
Coupling- |
Yokohama Nat'l Univ. 1 *Kubo Shousaku 1, Mori Daisuke
1, Kawasaki Takashi 1, Baba Toshihiko 1 |
| |
11 |
Fundamental Characteristics of Optical Group Delay
Device by Chirped Photonic Crystal Waveguides (IV) – Time Domain Measurement
– |
Yokohama Nat'l Univ. 1 *Mori Daisuke 1, Kubo Syosaku
1, Kawasaki Takashi 1, Baba Toshihiko 1 |
| |
|
Lunch 12:00〜13:00 |
|
| 23p-L- / III |
| |
1 |
Bose-Einstein condensates of yttoribium atoms |
Kyoto University 1, O.E.C.U 2 (Osaka Electro-Communication
University 2)" Yoshiro Takahashi 1, Tsutomu Yabuzaki 2" |
| |
2 |
High-Power Operation and Beam-Pattern Control of
Surface-Emitting Two-Dimensional Photonic-Crystal Laser |
Kyoto Univ., ROHM Co.,Ltd Kunishi Wataru, Ohnishi
Dai, Miyai Eiji, Sakai Kyousuke, Imada Masahiro, Noda Susumu |
| |
3 |
Cavity-mode control and efficiency improvement
of 2D surface-emitting photonic-crystal laser by back reflection |
Kyoto Univ. 1, ROHM Co. Ltd. 2 Miyai Eiji 1, Kunishi
Wtaru 2, Ohnishi Dai 2, Sakai Kyosuke 1, Noda Susumu 1 |
| |
4 |
Transmission Characteristics of All Semiconductor
Photonic Crystal Active Waveguide Under Photopumping (II) Investigation
of Optical Gain |
Yokohama Nat'l Univ. 1, The Furukawa Electric 2 *Mizuta
Eiichi 1, Watanabe Hideki 1, Baba Toshihiko 1, Kiyota Kazuaki 2, Kise Tomofumi
2, Yokouchi Noriyuki 2 |
| |
5 |
Coupled-wave Analysis for Two-dimensional Photonic-crystal
Laser II -Introduction of structual parameters- |
Kyoto Univ. 1, ROHM Co., Ltd. 2 *Sakai Kyosuke
1, Miyai Eiji 1, Ohnishi Dai 1,2, Kunishi Wataru 1,2, Noda Susumu 1 |
| △ |
6 |
Coupled-wave Analysis for Two-dimensional Photonic-crystal
Laser III -Cavity modes with TE Polarization- |
Kyoto Univ. 1, ROHM Co., Ltd. 2
*Sakai Kyosuke 1, Miyai Eiji 1, Ohnishi Dai 1,2, Kunishi Wataru 1,2, Noda
Susumu 1 |
| |
|
Break 14:50〜15:05 |
|
| |
7 |
Photonic Molecule Laser Consisting of Photonic
Crystal Point Defect Cavities (II) A Considering on Coupled Modes |
Yokohama Nat'l Univ. 1 Ishii Satoru 1, *Baba Toshihiko
1 |
| |
8 |
Active/Passive Integrated Photonic Crystal Slab |
Yokohama Nat'l Univ. 1 *Watanabe Hideki 1, Mizuta
Eiichi 1, Baba Toshihiko 1 |
| |
9 |
Fabrication of organic light-emitting diodes on
a glass substrate patterned with photonic crystals on both sides by using
nanoimprint lithography |
Kyoto Univ. 1,Pioneer Corp. 2 *Matsubara Ippei
1,Ishihara Kuniaki 1,Fujita Masayuki 1,Asano Takasi 1,Noda Susumu 1,Ohata
Hiroshi 2,Hirasawa Akira 2,Nakada Hitoshi 2 |
| |
10 |
Fabrication of two-dimensional photonic crystals
in spin-on-glass by using nanoimprint lithography |
Kyoto Univ 1, Rohm 2, Pioneer 3 *Ishihara Kuniaki
1, Fujita Masayuki 1, Matsubara Ippei 1, Asano Takashi 1, Noda Susumu 1,
Shimoji Noriyuki 2, Ohata Hiroshi 3, Hirasawa Akira 3, Nakada Hitoshi 3 |
| |
11 |
Measurement of carrier lifetime in photonic crystal
point-shift nanocavity laser (II) Pumping intensity dependence |
Yokohama Nat'l Univ 1. Nozaki Kengo 1, Baba Toshihiko
1 |
| |
12 |
Spontaneous emission phenomena in 2D photonic crystal
and quantum dot system |
Kyoto Univ. 1 *Masayuki Fujita 1, Makoto Yamaguchi
1, Junya Nakanashi 1, Kazumichi Sugiyama 1, Wolfgang Stumpf 1, Yoshinori
Tanaka 1, Takashi Asano 1, Susumu Noda 1
|
| △ |
13 |
Localized excitation of InGaAs quantum dots by
using a photonic crystal nanocavity |
IIS Univ. of Tokyo 1, NCRC Univ. of Tokyo 2, RCAST
Univ. of Tokyo 3 *Nomura Masahiro 1,2, Iwamoto Satoshi 1,2,3, Nakaoka Toshihiro
2,3, Ishida Satomi 2,3, Arakawa Yasuhiko 1,2,3 |
| |
14 |
Efficient excitation of photonic crystal nanocavity
laser using resonant effect of a high order cavity mode |
IIS Univ. of Tokyo 1, NCRC Univ. of Tokyo 2, RCAST
Univ. of Tokyo 3 *Nomura Masahiro 1, Iwamoto Satoshi 1,2,3, Nishioka Masao
2,3, Ishida Satomi 2,3, Arakawa Yasuhiko 1,2,3 |
| △ |
15 |
FDTD analysis of the thermal radiation from two-dimensional
photonic crystal slabs |
Kyoto Univ. 1 *Mochizuki Keita 1, Asano Takashi
1, Nakamura Masahiro 1, Noda Susumu 1 |
| 4.2 Photonic
Nano-Structures and Relating Phenomena |
| Mar. 24 9:30〜18:00 |
| 24a-L- / III |
| |
1 |
Negative Magnetic Permeability of Three-dimensional
Silver Nano Resonator Array in the Visible Light Region |
RIKEN 1, JST-CREST 2, Grad. School of Eng. Osaka
Univ. 3 *Takuo Tanaka 12, Atsushi Ishikawa 13, Satoshi Kawata 123 |
| △ |
2 |
Magnetic Responses of Nano Metallic Resonator Array
in the Optical Frequency Region |
RIKEN 1, JST-CREST 2, Graduate School of Eng.,
Osaka Univ. 3 *Ishikawa Atsushi 1,3, Tanaka Takuo 1,2, Kawata Satoshi 1,2,3 |
| |
3 |
Anisotropic Metamaterial for Non-Polarizing Brewster
Windows |
RIKEN 1, JST-CREST 2, Grad. School of Eng. Osaka
Univ. 3 *Takuo Tanaka 12, Atsushi Ishikawa 13, Satoshi Kawata 123 |
| ▲ |
4 |
3D fabrication of metallic nanostructures by two-photon
polymerization. |
RIKEN 1, JST-CREST 2, Gakushuuin Univ. 3, Osaka
Univ. 4 *Florian Formanek 1, Nobuyuki Takeyasu 1, Kenta Chiyoda 13, Takuo
Tanaka 12, Atsushi Ishikawa 14, Satoshi Kawata 124 |
| |
5 |
Localized Metal Coating of Three-dimensional Polymer
Microstructures |
RIKEN 1, JST-CREST 2, Gakushuin Univ. 3, Osaka
Univ. 4, *Nobuyuki Takeyasu 1, Florian Formanek 1, Kenta Chiyoda 1,3, Takuo
Tanaka 1,2, Atsushi Ishikawa 1, 4, Satoshi Kawata 1,2,4 |
| |
|
Break 10:45〜11:00 |
|
| |
6 |
Site-seletive Metal coating of Three-dimensional
Polymer Structures for Metamaterial |
RIKEN 1.JST-CREST 2.Gakushuin Univ 3.Grad.School
of Eng.,Osaka Univ 4 *Chiyoda Kenta 1,3.Tanaka Takuo 1,2.Takeyasu Nbuyuki
1.Formanek Florian 1.Ishikawa Atsushi 1,4.Kawata Satoshi 1,4. |
| |
7 |
Three-dimensional Metallic Metamaterial Structures
Fabricated by using Two-photon Induced Photoreduction of Metal Ions |
RIKEN 1, JST-CREST 2, Grad. School of Eng. Osaka
Univ. 3 "Takuo Tanaka 12, Atsushi Ishikawa 13, Satoshi Kawata 123 |
| |
8 |
Observation of Light Deflection Characteristics
Through Photonic Crystal Superprism On SOI Substrate |
Yokohama Nat’l Univ. Matsumoto Takashi 1, Baba
Toshihiko 1 |
| |
9 |
Surface plasmon pattern of 1-Dimensional plasmonic
Crystals |
Dept. of Mat. Sci&Eng Tokyo Inst. Tech.1, Dept.
Physics Tokyo Inst. Tech.2, JST-CREST *Suzuki Takahiro 1, Yamamoto Naoki
2,3 |
| △ |
10 |
Observation of Light Propagation Characteristics
Through Photonic Crystal Superlens(II) -Focusing At Outside the Lightcone- |
Yokohama Nat’l Univ Matsumoto Takashi 1, Eom Kun-sun
1, Baba Toshihiko 1 |
| |
11 |
Observation of Light Propagation Characteristics
Through Photonic Crystal Superlens(III)-Focusing At Inside the Lightcone- |
Yokohama Nat'l Univ. Eom Kunsun 1, Matsumoto Takasi
1, Baba Tosihiko 1 |
| |
|
Lunch 12:30〜13:30 |
|
| 24p-L- / III |
| △ |
1 |
Resonant transmission phenomenon through ferroelectric
hole arrays |
RIKEN 1, Inst. of Laser Eng. Osaka Univ. 2 *Miyamaru
Fumiaki 1, Tanaka Masaki 2, Hangyo Masanori 2 |
| |
2 |
Wavelength filter array utilizing photonic crystal
structure for the visible and near-infrared wavelengths |
Tohoku Univ. 1, Photonic Lattice 2 *Ohtera Yasuo
1, Onuki Teppei 1, Inoue Yoshihiko 2, Kawakami Shojiro 2 |
| |
3 |
Observation of Guided-Resonance in Photonic Crystal
Slabs with Liquid Crystal(II) - Control by Temperature - |
Yokohama Univ 1 *Inoue Naoko 1, Baba Toshihiko
1 |
| |
4 |
Investigation of the relationship between radiation
loss and slow light effect in two-dimensional photonic crystal slab defect
cavities |
Kyoto Univ. 1 *Takashi Asano 1, Susumu Noda 1 |
| ▲△ |
5 |
High Quality factor Photonic Crystal H1-defect
Nanocavities with Optimized Slab Thickness |
RCAST Univ. of Tokyo 1, IIS Univ. of Tokyo 2 *Tandaechanurat
Aniwat 1, Iwamoto Satoshi 1,2, Arakawa Yasuhiko 1,2 |
| |
6 |
Measurement of High Q Hexa-pole mode cavity in
photonic crystal slab |
Tokai Univ. 1, NTT Basic Research lab. 2, KAIST
3 *Shingo Kondo 1, G-H KIM 2 3, Akihiko Shinya 2, Eiichiro Kuramochi 2,
Hideaki Taniyama 2, Masaya Notomi 2, Osamu Mikami 1 |
| |
7 |
Ultrahigh-Q (〜1,000,000) photonic nanocavities
with multi-step double heterostructures |
Kyoto Univ. 1, JST 2 *Bong-Shik Song 1,2, Hiroyuki
Hagino1, Takashi Asano 1, and Susumu Noda 1
|
| |
8 |
Photonic crystal nanocavity by local width-modulation
of line-defect: dependence on width and taper structure |
NTT BRL 1 *Kuramochi Eiichi 1, Tanabe Takasumi
1, Mitsugi Satoshi 1, Taniyama Hideaki 1, Shinya Akihiko 1, Notomi Masaya
1 |
| |
9 |
Radiation force between a pair of 2D photonic crystal
slab with point defect cavity (2) |
NTT Basic Res. Labs. 1, TITech 2 *Taniyama Hideaki
1, Notomi Masaya 1, Kuramochi Eiichi 1, Mitsugi Satoshi 1 2 |
| |
|
Break 15:45〜16:00 |
|
| |
10 |
Pulse propagation in photonic crystal slab waveguides |
Fujitsu Labs. Ltd. 1, AIST Ultrafast Photonic Devices
Lab. 2 Tanaka Yu 1, Kawashima Hitoshi 2, Ikeda Naoki 2, Sugimoto Yoshimasa
2, Hasama Toshihumi 2, Ishikawa Hiroshi 2, Kuwatsuka Haruhiko 1 |
| △ |
11 |
Dynamic Q factor control of 2D photonic-crystal
nanocavities using ultrashort optical pulses |
Kyoto Univ. 1, JST 2 *Uesugi Toshitsugu 1, Upham
Jeremy 1, Tanaka Yoshinori 1, Song Bong-Shik 1,2, Ishizaki Kenji 1, Asano
Takashi 1, Noda Susumu 1 |
| |
12 |
Signal processing with all-optical switch using
silicon photonic crystal nanocavity: Study for faster operation |
NTT BRL 1, NTT MIL2, NTT NIL3 Takasumi Tanabe1,
Koji Yamada2, Katsuhiko Nishiguchi1, Eiichi Kuramochi1, Akihiko Shinya1,
Hiroshi Inokawa1, Satoki Kawanishi1,3, and Masaya Notomi1 |
| |
13 |
Design of two-dimensional photonic crystal directional
coupler for ultra-fast all-optical switch (PC-SMZ) |
U. Tsukuba 1, AIST 2 *Yoshinori Watanabe 1, Yoshimasa
Sugimoto 1,2, Naoki Ikeda 2, Nobuhiko Ozaki 1, Akio Mizutani 1, Yoshiaki
Takata 1, Kiyoshi Asakawa |
| |
14 |
Thermo-optic bistablity of AlGaAs-based photonic
crystal microcavity |
AIST Ultrafast Photonic Devices Lab. 1, Fujitsu
Labs. Ltd. 2 *Kawashima Hitoshi 1, Tanaka Yu 2, Ikeda Naoki 1, Sugimoto
Yoshimasa 1, Hasama Toshifumi 1, Ishikawa Hiroshi 1 |
| |
15 |
Reduction of free carrier lifetime in silicon wire
waveguide by introducing lattice defects. |
NTT Microsystem Integration Labs., NTT Basic Research
Labs., NTT AT Nanofabrication *Yamada Koji 1, Fukuda Hiroshi 1, Tsuchizawa
Tai 1, Watanabe Toshifumi 1, Shinojima Hiroyuki 1, Tanabe Takasumi 2, Takahashi
Mitsutoshi 3, Itabashi Sei-ichi 1 |
| |
16 |
Reset operation in optical bistability accelerated
by pahse-shifted pulse |
AIST Ultrafast Photonic Devices Lab. 1, NEC Corp.
2 Kawashima Hitoshi 1, Ikeda Naoki 1, Sugimoto Yoshimasa 1, Ohkouchi Syunsuke
2, Hasama Toshifumi 1, Ishikawa Hiroshi 1 |
| |
17 |
Four-wave mixing process in silicon photonic crystal
waveguides |
NTT Photonics Labs. 1, NTT Basic Labs. 2 Masao
Kato 1, Eiichi Kuramochi 2, Takasumi Tanabe 2, Masaya Notomi 2 |
| 4.3 Laser
Devices and Materials |
| Mar. 25 9:30〜18:15 |
| 25a-P- / III |
| |
1 |
Development of Short-Pulse Fluoride Lasers |
Kyushu Univ. 1 Takemoto Hisashi 1, Sakimura Takeshi
1, *Okada Tatuo 1 |
| |
2 |
CW Orange Beam Generation by 1160-nm Fiber Laser
Source (3) |
Nidek Co. Ltd. 1, Optoquest Co. Ltd. 2 *Adachi
Muneyuki 1, Kojima Kazunobu 2, Yoda Takuya 3, Hayashi Ken-ichi 4 |
| |
3 |
Supermode Noise Reduction in Fiber Ring Laers using
SOAs |
Nationl Defense Academy *Onodera Noriaki 1,Uemura
Ryoma 1,Tsuji Kenichiro 1,Yamaguchi Teppei 1,Saruwatari Masatoshi 1 |
| |
4 |
Study of Pumping Radiation Spectra for High Efficiency
Solar Pumped Lasers |
Tokyo Inst of Tech. 1, Okamoto Opt. 2, Neoark.
3, Polytech. 4 *Mabuchi Akito 1, Yabe Takashi 1, Uchida Shigeaki 1, Murahara
Masataka 1, Yoshida Kunio 1, Ogata Youichi 1, Sato Yuji 1, Ohkubo Tomomasa
1 |
| |
5 |
Cooling Technique of Solar Pumped Laser for H2
Generation Cycle |
Tokyo Inst of Tech 1, Okamoto Optics 2, Neoark
3, Polytech. Co. 4 Ohyama Atsushi 1, Yabe Takashi 1, Uchida Shigeaki 1,
Murahara Masataka 1,
Yoshida Kunio 1, Ogata Youichi 1, Sato Yuji 1, Ohkubo Tomomasa 1,
Takahashi Toshimasa 1, Oishi Takehiro 1 |
| |
6 |
A Suitable Q-switch of Solar Pumped Laser |
Tokyo Institute of Technology 1, Okamoto Optics
2, Neoark 3, Polytech. Co. 4 *Nakagawa Kenji 1, Yabe Takashi 1, Uchida Shigeaki
1, Murahara Masataka 1, Yoshida Kunio 1, Ogata Yoichi 1, Sato Yuji 1, Ohkubo
Tomomasa 1, Onodera Naoyuki 1, Yoshiaki Okamoto 2, Ito Satoshi 3, Ikesue
Akio 4 |
| |
|
Break 11:00〜11:15 |
|
| △ |
7 |
The consideration of the pump efficiency of solar
light pumped solid-state laser |
Fukui Univ *K.Araki,M.Wakamoto,T.Nagai,Y.Fukuda,H.Yoshida,T.Kanabe,H.Niki |
| |
8 |
Defect and spectroscopic properties in CZ grown
GdVO4 single crystal |
Sony Miyagi Corp. 1,Sony Corp. 2 *Kazuhiro Yagihashi
1,Toshio Soga 1,Makoto Watanabe 2,Yoshimi Takahashi 1, Tohru Katakura 2 |
| |
9 |
The studies of thermal property measurements of
Y3Al5O12, GdVO4, and YVO4
single crystals. |
Inst. Mol. Sci. Sato Yoichi 1, Taira Takunori 1 |
| |
10 |
Thermal Characteristics of Transmittance of Nd
doped Silica Glass for High Average Power Evaluation |
ILE Osaka Univ. 1, Shin-Etsu Quartz Co., Ltd. 2 *Takahiro
SATO 1, Yasushi Fujimoto 1, Tetsuji Ueda 2, Akira Fujinoki 2, Hidetsugu
Yoshida 1 and Masahiro Nakatsuka 1 |
| |
11 |
Laser performance of a conductive-cooled, pulsed
Tm:GdVO4 laser with a triangular-prism laser rod |
Tohoku Inst. of Tech. 1, NICT 2 *Sato Atsushi 1,
Asai Kazuhiro 1, Mizutani Kohei 2 |
| |
|
Lunch 12:30〜13:30 |
|
| 25p-P- / III |
| |
1 |
High average power pico-second output from a phase
conjugate laser system |
Chiba Univ. *Ojima Yasukuni 1, Nawata Koji 1, Goto
Masato 1, Omatsu Takashige 1 |
| |
2 |
High average power pico-second output from a side-diode-pumped
Nd:YVO4 slab amplifier with a bounce geometry |
Chiba University 1,Alnair Laboratries Corporation
2 *Nawata Kouji1,Ojima Yasukuni 1,Namikawa Morisato 2,Furuki Kenji 2 ,Sze
Y. Set 2,Omatsu Takasige 1,2 |
| △ |
3 |
Property of steady-state amplification for active
mirror amplifier with Nd/Cr:YAG ceramics |
Institute for Laser Technology 1,Tokyo Institute
of Technology 2,Institute of Laser Engineering Osaka Univ. 3 *T.Saiki 1,
S.Motokoshi 1, S.Uchida 2, K.Imasaki 1, H.Fujita 3, M.Nakatsuka 3, Y.Izawa
3,C.Yamanaka 1 |
| |
4 |
High repetition Q-switched laser with Nd doped
mix vanadate |
Chiba Univ. 1,Imperial College 2 *Goto Masato 1,Omatsu
Takashige 1,Minassian Ara 2,Damzen Michael 2 |
| |
5 |
Diode proximity-coupled Nd:GdVO4 planar waveguide
array laser |
Mitsubishi Electric Corp.1 *Imaki Masao 1, Yamamoto
Syuhei 1, Yanagisawa Takayuki 1, Hamaguchi Tsuneo 1, Shibata Kimitaka 1,
Hirano Yoshihito 1 |
| |
6 |
Development of Nd:Cr:YAG split-disk amplifier with
Liquid Cooling System |
ILE Osaka Univ. 1 *Okada Hajime 1, Yoshida Hidetsugu
1, Sumimura Kazuhiko 1, Fujita Hisanori 1, Nakatsuka Masahiro 1 |
| |
7 |
Development of high focusability 1-J at 10-Hz output
diode-pumped Nd:YLF regenerative amplifier |
Hamamatu Photonics K.K. 1, ILE, Osaka Univ. 2 *Sekine
Takashi 1,2, Yasuhara Ryo 1,2, Matsumoto Osamu 1,2, Ikegawa Tadashi 1,2,
Kurita Takashi 1,2, Kawashima Toshiyuki 1,2, Tsuchiya Yutaka 1, Kan Hirofumi
1, Kawanaka Junji 2, Nakatsuka Hiromasa 2 Izawa yasukazu 2
|
| |
8 |
Development of High-peak, High-average-power Solid-State
Laser System |
ILE Osaka Univ. Hamamatsu Photonics* *Tsubakimoto
koji 1,Yoshida Hidetsugu 1,Fujita Hisanori 1, Wan Tao 1,Nakatsuka Masahiro
1,Miyanaga Noriaki 1,Izawa Yasukazu 1,Matsuoka Shinichi 2,Kubomura Hiroyuki
2,Kan Hirohumi 2 |
| |
9 |
Developement of Compact and highly efficient temporal-pulse-compressor
via stimulated-Brillouin-scattering used in a fused-silica glass |
ILE Osaka Univ. 1, Shin-Etsu Quartz Products Co.2 Hidetsugu
Yoshida 1, Hisanori Fujita 1, Masahiro Nakatsuka 1, Tetsuji Ueda 2, Akira
Fujinoki 2 |
| |
|
Break 15:45〜16:00 |
|
| |
10 |
20 J at 10 Hz of 5TDL operation by thermally controlled
zig-zag slab laser |
Hamamatsu Photonics K.K. 1, Institute of Laser
Engineering Osaka University 2, Institute for Laser Technology 3 ○Ryo Yasuhara1,2,
Tadashi Ikegawa1,2,Takashi Sekine 1,2,Takashi Kurita1,2, Osamu Matsumoto1,2,Toshiyuki
Kawashima1,2, Masahiro Miyamato 1, Yutaka Tsuchiya1, Hirofumi Kan1, Junji
Kawanaka2, Masahiro Nakatsuka2, Yasukazu Izawa2 and Hiroyuki Furukawa3, |
| |
11 |
Thermal and Wavefront Analysis of a High-average
Power Pulsed Laser with a Zig-zag Slab |
HPK 1, ILE Osaka Univ. 2, ILT 3 *Ikegawa Tadashi
1,2, Hurukawa Hiroyuki 3, Yasuhara Ryo 1,2, Sekine Takashi 1,2, Matsumoto
Osamu 1,2, Kawashima Toshiyuki 1,2, Kan Hirohumi 1, Kawanaka Junji 2, Nakatsuka
Masahiro 2, Izawa Yasukazu 2 |
| |
12 |
Micro drilling by the passively Q-switched Nd:YAG
microchip-laser |
IMS 1, AIST 2, HPK 3 *Taira Takunori 1, Matsuoka
Yoshihiko 2, Sakai Hiroshi 3, Kan Hirohumi 3 |
| |
13 |
Suppression of parasitic oscillation in high power,
diode edge-pumped Yb:YAG microchip lasers. |
IMS 1 *Masaki Tsunekane 1,Takunori Taira 1 |
| |
14 |
Continuous-wave lasing of stoichiometric YbAG laser |
Univ. of Fukui Matsubara Shinichi 1, Ohtani Kazunori
1, Ueda Tsutomu 1, Inoue Masahiro 1, Kawato Sakae 1, Kobayashi Takao 1 |
| |
15 |
Yb60doped sesquioxide ceramic mode-lock
laser |
UEC ILS 1, Kounoshima Chemical Co.Ltd. 2, Russian
Academy of Sciences 3 *Tokurakawa Masaki 1, Takaichi Kazunori 1, Yag Hideki
1,2,
Shirakawa Akira 1, Ueda Kenichi 1, Hosokawa Syunsuke 2,
Yanagitani Takagimi 2, Kaminskii Alexander 3 |
| |
16 |
Q-switched laser oscillator with a cooled Yb:YAG
ceramics active mirror |
Osaka Univ. 1, Inst. Laser Technology 2, Hamamatsu
Photonics K.K. 3 Kawanaka Junji 1, Tokita Shigeki 1, Fujita Masayuki 2,
Kawashima Toshiyuki 3, Izawa Yasukazu 1 |
| △ |
17 |
Diode-pumped picosecond regenerative amplifier
with cryogenically cooled Yb:YAG crystal |
ILE/Osaka-Univ. 1,Inst. for Laser Tech. 2, Hamamatsu
Photonics K.K. 3 *Tokita Shigeki 1, Kawanaka Junji 1, Fujita Masayuki 2,
Kawashima Toshiyuki 3, Izawa Yasukazu 1 |
| |
18 |
Yb:KYW negative chirped regenerative amplifier |
ISSP Univ. of Tokyo 1, IMRA America, Inc. 2 *Teruto
Kanai 1, Toshihiko Kuwahara 1, Shuntaro Watanabe 1, Yuzuru Uehara 2 |
| 4.3 Laser
Devices and Materials |
| Mar. 26 9:30〜13:00 |
| 26a-P- / III |
| |
1 |
Phase-conjugation of a 1 um pico-second Laguerre-Gaussian
beam |
Chiba Univ.1,JST PREST2 Gyeong Bok Jung1, Keiichiro
Kanaya1, *Takashige Omatsu1,2 |
| △ |
2 |
Oscillation of a radially polarized laser light
using a c-cut Nd:YVO4 crystal |
IMRAM., Tohoku Univ. 1 *Yonezawa Kazuhiro 1, Kozawa
Yuichi 1, Nakamura Takahiro 1, Sato Shunichi 1 |
| |
3 |
Frequency stabilization of a 100-W, single-frequency
Nd:YAG laser using an optical cavity |
Univ. of Tokyo 1 *Takeno Kohei 1, Ozeki Takafumi
1, Moriwaki Shigenori 1, Mio Norikatsu 1 |
| △ |
4 |
Wavelength stabilization of an electronically tuned
Ti:sapphire laser |
Tokyo University of Science 1, RIKEN 2 *Yumoto
Masaki 1, Ogawa Takayo 2, Yamashita Masahumi 1, Wada Satoshi 2 |
| |
5 |
Palmtop UV Laser by Passive Q-switch and Super-short
PPLN |
Grad. Sch. of ISEE, Kyushu Univ.1,Megaopto.2,RIKEN.3 Okaguchi
Takahiro 1,*Oki Yuji 1,Urata Yoshiharu 2,Wada Satoshi 3 |
| |
6 |
A Palm-Size Ultraviolet Laser Using a Combination
of a Monolithic Wavelength Converter and an Optical Fiber |
Osaka Univ. 1, Neoark Corp. 2 *Satoshi Hatano 1,2,
Masashi Yoshimura 1, Yukio Enomoto 2, Satoshi Ito 2, Yusuke Mori 1, Takatomo
Sasaki 1 |
| |
7 |
Characteristics of Xe2* emission
pumped by longitudinal discharge |
ILE, Osaka Univ. 1, Kobe Shinwa Women's Univ. 2,
Japan Steel Works Ltd. 3 *Uno Kazuyuki 1, Nakamura Kenshi 2, Kawanaka Junji
1, Goto Tatsumi 3, Jitsuno Takahisa 1 |
| |
|
Break 11:15〜11:30 |
|
| |
8 |
Multi wavelength oscillation with DFB solid-state
dye laser |
Chitose Institute of Science and Technology *Naoya
Nakai 1, Makoto Fukuda 1, Keiichi Mito 1 |
| |
9 |
Thermo-optical control on quasi mode coupling of
integrable distributed feedback film-dye laser |
ISEE, Kyushu Univ. 1,Kurume NCT 2 *Sanada Koichi
1,Ogawa Yukinori 1,Watanabe Hirofumi 1,Oki Yuji 1,Maeda Mitsuo 2 |
| |
10 |
Dye-Lasing Mode-Characteristics Using Plane-Parallel
Microcavity I |
Iwate Univ. Yuuki Furueda, Hiroshi Kubota, Yasuhide
Maita, Shinji Tanosaki, Hiroshi Taniguchi |
| |
11 |
Light-Emission Enhancing Characteristics of Organic
ECL Device Mixed with Light Scatterers II
|
Iwate Univ. Yuuki Furueda, Masaho Kikuchi, Yuji
Honda, Hiroshi Taniguchi |
| |
12 |
Light-Emission Characteristics of Host-Guest Nano-Crystal,
I |
Iwate Univ. *Taniguchi Hiroshi, Kamata Noriyuki,
Tanosaki Shinji, Doki Norihito, Yokota Masaaki, Shimizu Kenji |
| △ |
13 |
High-peak power output from a waveguide dye laser
including a random active media |
Kyushu Univ. 1, Chiba Univ. 2 *Watanabe Hirofumi
1, Omatsu Takashige 2, Oki Yuji 1, Maeda Mitsuo 1 |
| 4.4 Ultrafast
lasers and High Field Lasers |
| Mar. 25 10:00〜18:45 |
| 25a-E- / III |
| |
1 |
Generation of high-repititation-rate pulse train
by means of Fourier synthesis of CW Raman laser |
Graduate School of Eng. Kyushu Univ., Center for
Future Chem. Kyushu Univ. *Zaitsu Shin-ichi 1 2, eshima Chihiro 1, Ihara
Kazuki 1, Imasaka Totaro 1 2 |
| |
2 |
36 fs ultrashort pulse generation using phase locked
two colored 121 fs twin pulses generated by pulse trapping |
Nagoya Univ. Nishizawa Norihiko 1 |
| |
3 |
Passively mode-locked Yb:YAG laser oscillation
by directly pumping to the upper level II |
AIST Sadao UEMURA, Kenji TORIZUKA |
| ▲ |
4 |
High-peak-power 1030-nm optical pulse generation
by amplification of mode-locked semiconductor laser pulses |
Tohoku University NICHe 1, Oyokoden Lab Co. Ltd.
2 *H.C. Guo 1, M. Mure 2, K. Sato 1, K. Takasima 1, H. Yokoyama 1 |
| |
5 |
Study of the pulse compression of multi-mode chirped
pulse from gain-switched laser diode
|
Osaka Pref. Univ. 1 *Wada Kenji 1, Sato Hideki
1, Takamatsu Shuji 1, Matsuyama Tetsuya 1, Horinaka Hiromichi 1 |
| |
|
Break 11:15〜11:30 |
|
| |
6 |
Generation of widely and flatly broadened optical
light source using high-power Raman soliton and highly-nonlinear fiber II |
Nagoya Univ. 1 *Takayanagi Jun 1, Nishizawa Norihiko
1 |
| |
7 |
The spectral broadening and its control of an optical
pulse in a 1-$\mu$m-core-diameter photonic crystal fiber |
Chitose Inst. Sci. and Tech. 1 *Karasawa Naoki
1, Kawano Mitsuyori 1, Aihara Yuuri 1 |
| |
8 |
All fiber high power chirped pulse amplification
with 3rd order dispersion compensated |
Inst. Laser Science / Univ Electro-Community Motoyuki
Tanisho, Akira Shirakawa, Kenichi Ueda |
| |
9 |
Development of optical comb system using a mode-locked
fiber laser and its application to high precision optical metrology (I) |
AIST 1, TUS 2, SEI 3, Tohoku Univ. 4 Y. Daimon
1,2, H. Inaba 1, K. Minoshima 1, T.R.Schibli 1, F.-L. Hong 1, A. Onae 1,
M. Onishi 3, T. Okuno 3, M. Hirano 3, M. Nakazawa 4, H. Matsumoto 1,2
|
| |
10 |
Development of optical comb system using a mode-locked
fiber laser and its application to high precision optical metrology (II) |
Nat. Inst. of AIST 1,Tokyo Univ. of Science 2,
Sumitomo Electric Industries 3, Tohoku Univ. 4 *Hajime Inaba 1, Yuta Daimon
1,2, Kaoru Minoshima 1, Feng-Lei Hong 1, Atsushi Onae 1, Thomas R. Schibli
1, Masashi Onishi 3, Toshiaki Okuno 3, Masaaki Hirano 3, Masataka Nakazawa
4, Hirokazu. Matsumoto 1,2
|
| |
|
Lunch 12:45〜13:45 |
|
| 25p-E- / III |
| |
1 |
Nonlinear optical processes and structural changes
of DLC films irradiated with femtosecond laser pulses |
Kyoto Univ. 1 *Godai Miyaji 1, Wataru Kobayashi
1, Kenzo Miyazaki 1 |
| |
2 |
Diagnostics of Ultrafast Plasma Dynamics with Frequency
Domain Interferometry |
Osaka Univ. 1, ILE Osaka 2 *Kiminori Kondo 1,2,
Yoshikazu Hama 1,2, Arnaud Zoubir 1,2, Kazuo Tanaka 1,2 |
| |
3 |
Improvement on wavelength-resolution of a spatiotemporally-resolved
soft x-ray absorption spectroscopy system - Toward a diagnosis of space-evolving
ablation particles |
NTT Basic Research Labs. 1 *Okano Yasuaki 1, Oguri
Katsuya 1, Nishikawa Tadashi 1, Nakano Hidetoshi 1 |
| |
4 |
Prospects of laser-based atomic defect analysis |
Tokyo Univ. 1, Tokyo Institute of Technology 2,
Central Research Institute of Electric Power Industry 3 Kikkawa Satoshi
1, Masaru Todoriki 1, Jun Nakagawa 1, Hasegawa Shuichi 1, Takano Kei 2,
Oishi Yuji 3, Nayuki Takuya 3, Nemoto Koshichi 3 |
| |
5 |
Ultrarelativistic electron generation during the
high intense laser pulse interaction with clusters |
KPSI JAEA 1, Moscow State Univ. 2 Fukuda Yuji 1,
Akahane Yutaka 1, Hayashi Yukio 1, Homma Takayuki 1, Inoue Norihiro 1, Kando
Masaki 1, Kanazawa Syuhei 1, Kiriyama Hiromitsu 1, Kondo Syuji 1, Kotaki
Hideyuki 1, Masuda Shinichi 1, Mori Michiaki 1, Yamasaki Atsushi 1, Yamakawa
Koichi 1, Echkina E.Yu. 2, Inovenkov I.N. 2, Koga James 1, Bulanov S.V.
1
|
| |
6 |
Proton beam spectrum and beam transport from Ta
tape target irradiated by intense ultra-short laser pulse |
Advanced Photon Research unit, Japan Atomic Energy
Agency 1, National Institute of Radiological Sciences 2, Instit. for Chemical
Research, Kyoto Univ. 3
*Satoshi Orimo 1, Mamiko Nishiuchi 1, Shu Nakamura 1,3, Atsushi Fukumi
1, 2, Zhang Li 1, 2, Akito Sagisaka 1, Koichi Ogura 1, Michiaki Mori 1,
Yukio Hayashi 1, Hiroyuki Daido 1, T. Esirkepov 1、S. Bul1nov 1, Hikaru Souda
3, Toshiyuki Shirai 3, Yoshihisa Iwashita 3, Akira Noda 3 |
| |
7 |
The high energy ion emission as a function of foil
target displacement from best focus |
Japan Atomic Enrgy Agency 1, National Institute
of Radiologcal Sciences 2, Central research Institute of Electric Power
Industry 3, Institute of Chemical Research Kyoto University 4 *Ogura Koichi
1, Fukumi Atsushi 1,2, Li Zong 1,2, Orimo Satoshi 1, Sagisaka Akito 1, Nishiuchi
Mamiko 1, Kado masataka 1, Mori Michiaki 1, Hayashi Yukio 1, Daido Hiroyuki
1 |
| |
8 |
20 MeV quasi-monoenergetic electron beam production
by using TW class Ti:Sa laser with f/13 focusing optics |
JAEA 1, KEK 2 *Michiaki Mori 1, Kando Masaki 1,
Daito Izuru 1, Kotaki Hideyuki 1, Hayashi, Yukio 1, Ogura Koichi 1, Sagisaka
Akito 1, Nakajima Kazuhisa 1,2, Bulanov Sergei 1, Daido Hiroyuki 1, and
Toyoaki Kimura 1 |
| |
9 |
Dependence of Bremsstrahlung photon temperature
on target thickness |
The University of Tokyo 1,Tokyo Institute of Technology
2,
Central Research Institute of Electric Power Industry 3 Nakagawa Jun 1,Kikkawa
Satoshi 1,Todoriki Masaru 1,Hasegawa Syuichi 1,
Takano Kei 2,Oishi Yuji 3,Nayuki Takuya 3,Nemoto Koshiti 3 |
| |
|
Break 16:00〜16:15 |
|
| |
10 |
Origin of the side peaks appearing in the ATI spectra
of Mg |
Kyoto Univ. *Nakajima Takashi 1,Buica Gabriela
1 |
| |
11 |
Single-shot Measurement of the spatial coherence
of 13-nm high-order harmonics (II) |
RIKEN, Laser Tech. Lab. 1 *Yutaka Nagata 1, Yasuo
Nabekawa 1, Kentaro Furusawa 1, Katsumi Kidorikawa 1 |
| |
12 |
Angular dependence of high-harmonic generation
from aligned CO2 molecules |
Kyoto Univ. 1 *Godai Miyaji 1, Kazumichi Yoshii
1, Ryosuke Morichi 1, Kenzo Miyazaki 1 |
| |
13 |
High-order harmonic generation from aligned molecules
with femtosecond time-dependent polarization pulses |
Univ. of Tokyo 1 Minemoto Shinichirou 1, Hitsumoto
Kentaro 1, Kanai Tsuneto 1, Sakai Hirofumi 1 |
| ▲ |
14 |
Generation of efficient high-order harmonics below
10 nm in a two-color laser field |
ISSP Univ. of Tokyo 1, Hokkaido Univ. 2 Liu Tingting
1, *Kanai Teruto 1, Sekikawa Taro 2, Watanabe Shuntaro 1 |
| |
15 |
Full characterization of high harmonic pulses by
using ATI-FROG |
ISSP,Univ. of Tokyo *Kosuge Atsushi 1,Sekikawa
Taro 1,Zhou Xiangyu 1,Kanai Teruto 1,Watanabe Shuntaro 1 |
| |
16 |
Frequency Resolved Autocorrelation Measurement
of Attosecond Beats and Envelopes |
Riken 1, Univ. of Tokyo 2, Inst. for Molecular
Science 3 *Toshihiko Shimizu 1, Tomoya Okino 1,2, Hirokazu Hasegawa 1,3,
Kentaro Furusawa 1, Yasuo Nabekawa 1, Kaoru Yamanouchi 1,2 and Katsumi Midorikawa
1
|
| |
17 |
Characterization of attosecond pulse train with
mode-resolved autocorrelation traces |
RIKEN 1, Univ. of Tokyo 2, IMS 3 Shimizu Toshihiko
1, Okino Tomoya 1 2, Furusawa Kentaro 1, Hasegawa Hirokazu 1 3, *Nabekawa
Yasuo 1, Kaoru Yamanouchi 1 2, Katsumi Midorikawa 1 |
| △ |
18 |
Autocorrelation measurement of an attosecond pulse
train by molecular Coulomb explosion |
Univ. of Tokyo 1, RIKEN 2, IMS 3 *Okino Tomoya
1,2, Yamanouchi Kaoru 1,2, Shimizu Toshihiko 2, Furusawa Kentaro 2, Hasegawa
Hirokazu 2,3, Nabekawa Yasuo 2, Midorikawa Katsumi 2 |
| |
19 |
Measurement of ultraviolet femtosecond pulse using
two-photon ionization/mass spectrometry of molecular gas |
Graduate School of Engineering 1,Center for Future
Chemistry 2 *Yuki Miyoshi 1、Humiaki Kira 1、Satoshi Yamaguchi 1、Tomohiro
Uchimura 1,2、Shinichi Zaitsu 1,2、Totarou Imasaka 1,2 |
| 4.4 Ultrafast
lasers and High Field Lasers |
| Mar. 26 10:00〜16:00 |
| 26a-E- / III |
| |
1 |
High-pulse energy kHz rep-rate Ti:sapphire regenerative
amplifier |
AIST *Matsushima Isao 1, Yashiro Hidehiko 1, Tomie
Toshihisa 1 |
| |
2 |
Broadband optical parametric amplification |
ISSP Univ. of Tokyo *Heehwan Lee 1, Teruto Kanai
1, Shuntaro Watanabe 1 |
| |
3 |
Ultrashort 5 kHz Ti:sapphire laser with adaptive
phase control (2) |
ISSP Univ. Tokyo *Xiangyu Zhou 1, Teruto Kanai
1, Shuntaro Watanabe 1 |
| △ |
4 |
Compact aberration free multi loop stretcher for
OPCPA system (2) |
ILE Osaka 1, ILT 2 *Yasuki Takeuchi 1,Kanade Ogawa
1, Hidetsugu Yoshida 1, Masayuki Fujita 2, Yasukazu Izawa 1 |
| |
5 |
Development of tunable femto-second OPCPA (4) |
ILE Osaka Univ. 1,ILT 2 Ogawa Kanade 1,Takeuchi
Yasuki 1,Fujita Masayuki 2,Yoshida Hidetsugu 1,Izawa Yasukazu 1 |
| △ |
6 |
Chirped pulse amplification laser system based
on Yb fiber laser |
Osaka Univ. 1 *Kazuhiko Sumimura 1, Hidetsugu Yoshida
1, Kazuhiro Tanaka 1, Hajime Okada 1, Hisanori Fujita 1, Masahiro Nakatsuka
1 |
| |
|
Break 11:30〜11:45 |
|
| |
7 |
Pulse Compression of intense femtosecond laser
pulses using a gas-filled planar waveguide |
RIKEN 1, Tokai Univ. 2 Nurhuda Muhammad 1, *Suda
Akira 1, Bohman Samuel 2, Yamaguchi Shigeru 2, Midorikawa Katsumi 1 |
| |
8 |
Dissociative ionization of water molecules in ultrashort
intense laser fields: kinetic energy distribution of H+ |
Univ. Tokyo 1, NTT BRL 2 *Furukawa Yusuke 1, Yamanouchi
Kaoru 1, Nakano Hidetoshi 2 |
| |
9 |
Ejection of H3+ ion from
methanol in an intense laser field by coincidence momentum imaging |
Univ. of Tokyo 1, NTT BRL 2 *Okino Tomoya 1, Furukawa
Yusuke 1, Peng Liu 1, Ichikawa Takayuki 1, Itakura Ryuji 1, Hoshina Kennosuke
1, Yamanouchi Kaoru 1, Nakano Hidetoshi 2 |
| |
10 |
Wavepacket motion in coulomb explosion process
of ethanol molecule by intense 800nm double pulse laser excitation |
Keio Univ 1, Univ of Tokyo 2 *Hiroki Yazawa 1,
Tadamasa Shioyama 1, Yoshitaka Suda 1, Fumihiko Kannari 1, Ryuji Itkura
2, Kaoru Yamanouchi 2
|
| |
11 |
Dissociative ionization of ethanol by two color
intense femtosecond laser pulses |
Keio Univ. 1, Univ. of Tokyo 2 *Suda Yoshitaka
1, Yazawa Hiroki 1, Shioyama Tadamasa 1, Kannari Fumihiko 1, Itakura Ryuji
2, Yamanouchi Kaoru 2 |
| |
|
Lunch 13:00〜14:00 |
|
| 26p-E- / III |
| |
1 |
Observation of coherent in-plane E2g2
oscillation in graphite |
NIMS 1, Pittsburgh Univ. 2 Kitajima Masahiro 1,
Ishioka Kunie 1, Hase Muneaki 1, Petek Hrvoje 2 |
| |
2 |
Coherent control of excitonic and biexcitonic polarization
in GaN layers by utilizing a FWM technique |
Hokkaido Univ. 1,PRESTO JST 2,Univ. of Tokyo 3,Yamaguchi
Univ. 4 Ishiguro Tetsurou 1,Sasaki Eiji 1,Toda Yasunori 1.2,Adachi Satoru
1.2,Hoshino Katsuyuki 4,Tadatomo Kazuyuki 4,Arakawa Yasuhiko 3 |
| |
3 |
Interference spectrum structure between harmonics
from a ZnO thin film –dependence on carrier-envelope phase- |
NTT Basic Research Labs.1, Shizuoka Univ. 2 *Atsushi
Ishizawa 1,Hideki Gotoh 1, Takehiko Tawara 1, Hidetoshi Nakano 1, Atsushi
Nakamura 2, Jiro Temmyo 2 |
| |
4 |
Stabilization of a carrier-envelope phase of the
12-fs Ti:sapphire chirped-pulse amplification system |
SIT 1,AIST 2 *Takamiya Hiroaki 1,Takada Hideyuki
2,Kakehata Masayuki 2,Kobayashi Yohei 2,Torizuka Kenji 2,Homma Tetsuya 1 |
| |
5 |
100-attosecond synchronization of two-color lasers
by use of optical phase-locking |
AIST 1 *Dai Yoshitomi 1, Yohei Kobayashi 1, Masayuki
Kakehata 1, Hideyuki Takada 1, Kenji Torizuka 1 |
| △ |
6 |
An experimental study on complete automatic phase
compensation for the generation of a-few-cycle pulses using the wavelet
transform |
Hokudai Univ. *Narita Keisuke 1, Muneyuki Adachi
1, Takashi Tanigawa 1, Mikio Yamashita 1 |
| |
7 |
Phase analysis using the wavelet transform |
Hokkaido Univ. *Ishikawa Moriyuki,Mizuta Yo,Narita
Keisuke,Yamashita Mikio |
| |
8 |
Generation of quasi-monocycle optical pulses using
induced phase modulation I |
Hokkaido Univ. Eiichi Matsubara, Toshiyuki Naoi,
Ryuji Morita, Mikio Yamashita |
| 4.5 Nonlinear
Optics and THz-wave synthesis |
| Mar. 23 9:30〜17:30 |
| 23a-M- / III |
| |
1 |
Terahertz frequency-comb spectroscopy based on
multi-frequency heterodyning photoconductive detection |
Grad. Sch. Engg. Sci., Osaka Univ. 1 *Takeshi Yasui
1, Eisuke Saneyoshi 1, Yasuhiro Kabetani 1, Shuko Yokoyama 1, Tsutomu Araki
1 |
| |
2 |
Micro-strip-line-based sensing chips for polar
liquids in THz regime |
Hiroshima Univ 1, *Onuma Masayuki 1,Ohkubo Tetuya
1,Kitagawa Jiro 1,Kadoya Yutaka 1 |
| △ |
3 |
THz spectroscopic characterization of polar solution
using micro-strip-line-based chips |
Hiroshima Univ 1,
*Onuma Masayuki 1,Ohkubo Tetuya 1,Kitagawa Jiro 1,Kadoya Yutaka 1
|
| |
4 |
Study on Ultrashort Optical Pulse Propagation in
Optical-fiber-Based Terahertz Time Domain Spectroscopy System |
CRL, Hitachi1,Defense Sys., Hitachi2, Inst. Laser
Eng., Osaka Univ.3 *Y. Lee1, S. Tanaka1, N. Uetake2, S. Fujisaki1, R. Inoue3,
M. Tonouchi3 |
| |
5 |
Ferroelectric PVDF Cladding THz Waveguide VII |
Shonan Inst. Tech. 1,Riken-Sendai 2, RIEC-Tohoku
Univ. 34.5 *Kojo Junichiro1, Ishikawa Akihiro1, Hidaka Takehiko1, Xu Liang1,Minamide
Hiroaki2, Ikari Tomofumi2, Ito Hiromasa2,3 |
| |
|
Break 10:45〜11:00 |
|
| △ |
6 |
Terahertz pump-probe spectroscopy applied to photo-induced
phase transition |
ISSP, The Univ. of Tokyo 1, Kyusyu Univ. 2 *Nakajima
Makoto 1, Seki Takashi 1, Takahashi Youtarou 1, Ozawa Akio 2, Kitagawa Hiroshi2,
Suemoto Tohru 1 |
| |
7 |
Terahertz properties of bulk GaN crystals |
Tohoku Univ. 1, Inst. High Pressure Phys. 2, Semiconductor
Research Inst. 3 *Tanabe Tadao 1, Michal Bockowski 2, Oyama Yutaka 1, Hozumi
Norimitsu 1, Sasaki Tetsuo 3, Suto Ken 3, Nishizawa Jun-ichi 3, Sylwester
Porowski 2 |
| |
8 |
ATR Spectra of water and solutions by using a coherent
THz-wave generator |
Tohoku Univ. 1, Semiconductor Research Inst. 2 Kenmochi
Atsushi 1, Tanabe Tadao 1, Oyama Yutaka 1, Suto Ken 2, Nishizawa Jun-ichi
2, Sasaki Tetsuo 2, Tanno Takenori 2 |
| |
9 |
Optical properties of GaP photonic crystal in terahertz
frequency region |
Tohoku Univ. 1, Semiconductor Research Inst. 2 *Saito
Kyosuke 1, Tanabe Tadao 1, Oyama Yutaka 1, Suto Ken 2, Nishizawa Jun-ichi
2, Sasaki Tetsuo 2, Kimura Tomoyuki 2 |
| |
10 |
LPE of GaSe by temperature difference method and
its optical aspects in terahertz region |
Tohoku Univ. 1, Semiconductor Research Inst. 2 *Sato
Fumikazu1, Tanabe Tadao1, Oyama Yutaka1, Kimura,Tomoyuki2, Suto Ken 2, Nishizawa
Jun-ichi2 |
| |
11 |
THz Absorption Spectroscopy usin PVDF Cladding
Hollow Waveguide |
Shonann Inst. Tech.1, Riken-Sendai2, RIEC-Tohoku
U.3, Pax.Co.Ltd.4 Ishikawa Akihito1, Kojo Jun-Ichirou1, *Hidaka Takehiko1,
Minamide Hiroaki2, Ishikawa Youichi2, Ito Hiromasa2,3, Kudoh Akito4 |
| |
|
Lunch 12:30〜13:30 |
|
| 23p-M- / III |
| |
1 |
THz Oscillators using Resonant Tunneling Diodes
and Slot Antenna with Stub-Shaped MIM Reflectors. |
Tokyo Tech. 1, JST-CREST 2 *Orihashi Naoyuki 1,
Miyachi Masato 1, Suzuki Safumi 1, Hanashima Kimitoshi 1 and Asada Masahiro
1,2 |
| |
2 |
Proposal of THz oscillator with strongly coupled
array structure of resonant tunneling diodes. |
Tokyo Tech. 1, JST-CREST 2 *Suzuki Safumi 1, Orihashi
Naoyuki 1, Asada Masahiro 1 2 |
| |
3 |
THz Radiation Induced by Optical Gate-Field Modulation
in Ultrahigh-Speed TransistorsII |
Inst. of Industrial Science, Univ. of Tokyo 1 *Kondo
Takashi 1, Hirakawa Kazuhiko 1 |
| |
4 |
THz transmission property of a thin two-dimensional
metallic hole-array plate |
Hokkaido Univ., RCIQE 1 *Yamazaki Yusuke 1, Akazawa
Masamichi 1, Sano Eiichi 1 |
| |
5 |
Electron transport of carbon nanotube quantum dots
under the THz-laser irradiation |
Advanced Device Lab., RIKEN 1, Tokyo Inst. of Tech.
2, CREST, JST 3 Tomoko Fuse1,2, Tomohiro Yamaguchi1, Masaki Suzuki1,2, Yoshinobu
Aoyagi2, Koji Ishibashi1,3 |
| ▲ |
6 |
Surge current-dominated terahertz radiation from
(100) p-InAs under 1 Tesla magnetic field |
Inst. for Molecular Science 1, The Graduate Univ.
for Adv. Studies 2, De La Salle University 3, Inst. of Laser Eng., Osaka
University 4 Estacio Elmer 1, Ponseca-Jr. Carlito 1,2, Quema Alex 1, Murakami
Hidetoshi 1, Ono Shingo 1, Pobre Romeric 3, Quiroga Reuben 3, *Sarukura
Nobuhiko 4, Masahiko Tani 4, Hangyo Masanori 4 |
| |
7 |
Cgaracteristics ofthe THz radiation from Si photoconductive
switch |
Osaka Univ. *Hiroki Koga 1, Iwao Kawayama 1, Hironaru
Murakami 1, Masayoshi Tonouchi 1 |
| |
8 |
Excitation wavelength dependences of terahertz
radiation from semiconductors |
Osaka Univ. 1, Aisin Seiki Co., Ltd. 2 M Suzuki
1, T Fujimoto 1, K Fujii 1, H Ohtake 2, T Hirosumi 2, M Tonouchi 1 |
| |
9 |
Angular Dependence of Terahertz Emission from Semiconductor
Surfaces |
Osaka Univ. Inst. of Laser Engineering 1 *Inoue
Ryotaro 1, Tonouchi Masayoshi 1 |
| |
10 |
THz generation and detection using PC antenna fabricated
on LT-grown InGaAs with 1.55 μm pulse excitation |
ADSM, Hiroshima Univ. 1,Osaka Univ. 2 *Takazato
Akihiro 1, Kamakura Masahumi 1, Kitagawa Jiro 1, Kadoya Yutaka 1, Suzuki
Masahito 2, Tonouchi Masayoshi 2 |
| |
|
Break 16:00〜16:15 |
|
| |
11 |
Investigation for the Terahertz Radiation from
InAs under Magnetic Fields |
Inst. Laser Eng., Osaka Univ. 1 *Sumikura Hisashi
1, Enatsu Tokujiro 1, Nagashima Takeshi 1, Tani Masahiko 1, Hangyo Masanori
1 |
| |
12 |
Radiation Power of Terahertz Waves from Coherent
LO Phonons in GaAs/AlAs Multiple Quantum Wells |
Osaka City Univ. 1, KARC NICT 2, NICT 3 Mizoguchi
Kohji 1, Mizumoto Akihiro 1, Saito Shingo 2, Syouji Atsushi 2, Sakai Kiyomi
2, Yamamoto Naokatsu 3, Akahane Kouichi 3, Nakayama Masaaki 1 |
| |
13 |
Annealing temperature dependences of detection
of LT-GaAs photoswitches |
Osaka Univ. 1, ADSM, Hiroshima Univ. 2 M Suzuki
1, M Tonouchi 1, M. Kamakura 2, Y. Kadoya 2 |
| |
14 |
Terahertz wave generation from a thin-film photoconductive
antenna transferred on Si substrates II |
Canon Research Center, Canon Inc. 1 *Ouchi Toshihiko
1, Kasai Shintaro 1 |
| |
15 |
Fundamental examinations of Terahertz integrated
sensor using a transmission line |
Canon Inc. 1, RIKEN 2 *Kurosaka Ryoji 1,Kasai Shintaro
1,2,ItsujiTakeaki 1,Kawase Kodo 2,Ito Hiromasa 2,Ouchi Toshihiko 1,2 |
| 4.5 Nonlinear
Optics and THz-wave synthesis |
| Mar. 25 9:30〜18:45 |
| 25a-M- / III |
| |
1 |
THz radiation from laser induced plasma by using
solid target. |
Institute of Laser Engineering, Osaka Univ. 1,
Institute of Chemical Research, Kyoto Univ. 2, Dept. of Appl. Phys., Osaka
City Univ. 3 Ryota Nakanishi 1, Kouji Shibuya 1, Takeshi Nagashima 1, Masanori
Hangyo 1, Yuichi Inubushi 1, Minoru Tanabe 1, Hiroaki Nishimura 1, Nobuhiko
Sarukura 1, Masaki Hashida 2, Shuji Sakabe 2, Shigeki Nashima 3 |
| |
2 |
Terahertz Radiation from Argon Gas Plasma Generated
by a High-Power Femtosecond Laser |
Inst. of Laser Engineering, Osaka Univ. 1, Inst.
for Chemical Research, Kyoto Univ. 2 *Kyoji Shibuya 1, Takeshi Nagashima
1, Ryota Nakanishi 1, Masanori Hangyo 1, Kota Shirai 2, Masaki Hashida 2,
Syuji Sakabe 2 |
| |
3 |
Scaling up THz-wave output energy in a surface-emitted
TPO |
RIKEN Sendai 1, Tohoku Univ. 2 Tomofumi Ikari 1,
Hiroaki Minamide 1, Hiromasa Ito 1,2 |
| |
4 |
Study of a quasi-monolithic ring THz-wave parametric
oscillator |
RIKEN Sendai 1, RIEC Tohoku Univ. 2 Hiroaki Minamide
1, Tomofumi Ikari 1, Hiromasa Ito 1 2 |
| |
5 |
Tunable THz-wave generation from a new organic
DAST/DASC mixed crystal |
Tohoku Univ. 1,Yamagata Univ. 2 *Taniuchi Tetsuo
1,Matsukawa Takeshi 1,Okada shuji 2,Nakanishi Hachiro 1 |
| |
|
Break 10:45〜11:00 |
|
| △ |
6 |
Broadband THz generation from DASC crystal |
Osaka Univ. 1-2,Tohoku Univ. 3,Yamagata Univ. 4 *Hiratsuka
Masahiro 1,Koizumi Toshiyuki 1,Tani Masahiko 1,Hangyo Masanori 1,Takahashi
Yoshinori 2,Srinivasan Brahadeeswaran 2,Yoshimura Masashi 2,Mori Yusuke
2,Sasaki Takatomo 2,Nakanishi Hachirou 3,Okada Shuzi 4 |
| |
7 |
Terahertz pulse generation in organic crystal DAST
from various short pulse IR lasers |
Graduate School of Eng., Osaka Univ. 1, ILE, Osaka
Univ. 2, IMRAM Tohoku Univ. 3 *Yoshimura Masashi 1, Takagi Masayuki 1,
Suzuki Masato 2, Takahashi Yoshinori 1, Onduka Shinji 1, Srinivasan Brahadeeswaran
1, Mori Yusuke 1, Sasaki Takatomo 1, Tonouchi Masayoshi 2, Nakanishi Hachiro
3 |
| |
8 |
Observation of ferroelectric domain structures
probing with terahertz radiation |
Inst. of Laser Engineering *Kouhei Takahashi, Masayoshi
Tonouchi |
| |
9 |
Simulation of terahertz wave generation using cascaded
effect in ZnTe |
Tukuba Univ. 1 *Takeuchi Kousuke 1,Ju Liyang 1,Hattori
Tosiaki 1 |
| |
10 |
Terahertz Quantum Cascade Lasers |
NICT 1, IIS, Univ. of Tokyo 2 *Sekine Norihiko
1, Hosako Iwao 1, Yasuda Hiroaki 1, Hirakawa Kazuhiko 2 |
| |
11 |
Frequency Conversion using the Doppler Effect in
Fin-Lines with Semiconductor Substrate |
Nagoya Inst. Tech. Jongsuck Bae, Sho Yamada, Tomoko
Noguchi |
| |
|
Lunch 12:30〜13:30 |
|
| 25p-M- / III |
| △ |
1 |
THz time-domain spectroscopy based on optical sampling
method (III) –extension of THz spectral bandwidth– |
Grad. Sch. Engg. Sci., Osaka Univ. *Y. Kabetani
1, E. Saneyoshi 1, S. Yokoyama 1, T. Yasui 1, T. Araki 1 |
| △ |
2 |
Rapid-scanning detection of broadband THz wave
using photoconductive antennaII |
Osaka Univ. 1, KARC NiCT 2, PREST JST 3 *Shimosato
Hiroshi 1, Katashima Taisuke 1, Saito Shingo 2, Ashida Masaaki 1,3, Itoh
Tadashi 1, Kiyomi Sakai 2 |
| |
3 |
Anomalous transmission through heavily-doped conducting
polymer film perforated with two-dimensional subwavelength hole array |
Physics, Univ. of Utah 1, Engineering, Univ. of
Utah 2, Physics, Indian Inst. of Science 3 *Matsui Tatsunosuke 1, Vardeny
Valy 1, Agrawal Amit 2, Nahata Ajay 2, Menon Reghu 3 |
| |
4 |
Measurement of transmittance and reflectance on
transparent ceramics in THz region |
Murata Mfg., Co., Ltd. 1, Kyoto Univ. 2 *Takashi
Fujii 1, Yukio Sakabe 1, Kazuyuki Hirao 2 |
| ▲ |
5 |
Terahertz - time domain spectroscopy (THz-TDS)
of microstructured poly(methylmetacrylate) (PMMA) polymer fiber |
Inst. for Molecular Science 1, The Graduate Univ.
for Advanced Studies 2, Inst. of Laser Engineering, Osaka Univ. 3, Optical
Fibre Technology Centre, Australian Photonics CRC, Univ. of Sydney 4 *Carlito
S. Ponseca Jr1,2, Alex Quema1, Elmer Estacio1, Hidetoshi Murakami1, Shingo
Ono1,2,Nobuhiko Sarukura3, Alexander Argyros4, Maryanne C.J. Large4 and
Martijn A. van Eijkelenborg4 |
| ▲ |
6 |
High-resolution THz-wave spectroscopic detection
of water vapor at low pressure |
RIKEN, Sendai 1, RIEC, Tohoku Univ. 2 * Guo Ruixiang
1, Koichi Akiyama 1, ,Hiroaki Minamide 1, Hiromasa Ito 1,2 |
| |
7 |
THz time-domain spectroscopy (THz-TDS) of DNA oligomer
with naphthyridine dimer intercalator |
ISIR Osaka Univ. 1 *Kimihiro Norizawa 1, Hitoshi
Tabata 1, Fumie Takei 1, Kazuhiko Nakatani 1 |
| |
8 |
Analysis of terahertz region absorption spectra
measured by mononuclear aromatic compound |
RIKEN Sendai 1, RIEC Tohoku Univ. 2 *Youichi Ishikawa
1, Hiromasa Ito 1,2 |
| △ |
9 |
A theoretical comparison between single molecular
vibration and crystalline phonon of \beta-D-Glucopyranose in terahertz region |
Tohoku Univ. 1 Shigeki Saito 1, Talgat Inerbaev
1, Hiroshi Mizuseki 1, Nobuaki Igarashi 1, Yoshiyuki Kawazoe 1 |
| ▲ |
10 |
Terahertz (THz) transmission spectroscopic analysis
of mono- and di-substituted hydroxynaphthalenes in the 0.5- to 6-THz region
using GaP THz wave generator |
Institute for Molecular Science1, Graduate University
for Advanced Studies2, De La Salle University3, Osaka University4, Semiconductor
Research Institute5, Kobe University6 *Glenda De Los Reyes1,2, Marilou Cadatal1,2,
Carlito Ponseca Jr.1,2, Alex Quema1, Elmer Estacio1, Romeric Pobre3, Reuben
Quiroga3, Hidetoshi Murakami1, Shingo Ono1,2, Nobuhiko Sarukura1,2, Takenori
Tanno4, Tetsuo Sasaki4, Keisuke Tominaga5 |
| |
|
Break 16:00〜16:15 |
|
| ▲△ |
11 |
Studies of hydrogen bonds in molecular single crystals
using angular dependent terahertz time-domain spectroscopy |
NTT Basic Research Labs. 1, NTT Microsystem Integration
Labs. 2, NTT Photonics Labs. 3 Rakchanok Rungsawang1, Yuko Ueno 2, Isao
Tomita 3, Katsuhiro Ajito 1 |
| |
12 |
Optical Coherence Tomography by the Reflection-type
THz Time Domain Spectrometer |
Inst. of Laser Engineering Osaka Univ. Hideaki
Kitahara,Keisuke Takano, Masahiko Tani, Masanori Hangyo |
| |
13 |
Widely tunable confocal coherent anti-Stokes Raman
spectrometer for THz-frequency modes in biomolecules |
Tohoku Univ. 1, RIKEN Sendai 2 *Suzuki Yoh 1,
Shikata Jun-ichi 1, Miyamoto Katsuhiko 1, Minamide Hiroaki 2, Ito Hiromasa
1,2 |
| |
14 |
Biomedical Tissue Measurement using THz |
Osaka Univ. 1, Inst. of laser, Osaka Univ. 2 Sachiko
Yoshihashi-Suzuki 1, Yasuhiro Ohno 2, Kenta Kotani 2, Kunio Awazu 1, Masayoshi
Tonouchi 2 |
| |
15 |
Photon-counting teraherts microscope |
Department of Basic Science University of Tokyo.
1, Institute of Industrial Science University of Tokyo. 2 *Hasegawa Takuma
1,Ikushima kenji 1,Komiyama Susumu 1,Ueda Takeji 1,Hirakawa kazuhiko 2 |
| |
16 |
Optical-Fiber-Probe-Coupled Laser-Terahertz Emission
Microscope(II) |
Osaka Univ. 1 *Naotsugu Uchida 1, Ryotaro Inoue
1, Iwao Kawayama, Hironaru Murakami 1, Masayoshi Tonouchi 1 |
| |
17 |
Spectroscopic imaging system using ring-cavity
THz-wave parametric oscillator |
RIKEN Sendai 1, Mitsubishi Electric Corp. 2, RIEC
Tohoku Univ. 3 *Koichi Akiyama1,2, Tomofumi Ikari 1, Yoichi Ishikawa 1,
Hiroaki Minamide 1, Hiromasa Ito1,3 |
| △ |
18 |
Terahertz Imaging with a Linear Array Detector
based on Superconducting Tunnel Junctions |
RIKEN 1, National Astronomical Observatory 2, Saitama
Univ. 3
*Ariyoshi Seiichiro 1, Otani Chiko 1, Dobroiu Adrian 1, Matsuo Hiroshi
2, Sato Hiromi 1, Taino Tohru 3, Kawase Kodo 1, Shimizu Hirohiko 1
|
| △ |
19 |
Discrimination of adhesive tapes by terahertz time
domain spectroscopy |
Forensic Science Laboratory, Osaka Prefecture Police
Headquarters 1, Institute of Laser Engineering, Osaka University 2 *Takeshi
Ikeda 1,2, Keisuke Takano 2, Mariko Yamaguchi 2, Akira Matsushita 1, Michiaki
Tatsuno 1, Yukio Minami 1, Masahiko Tani 2, Masanori Hangyo 2
|
| |
20 |
Investigation of indented impression by reflection-terahertz
time domain spectroscopic imaging |
Forensic Sci. Lab., Osaka Prefecture Police Headquarters
1, Inst. of Laser Engineering, Osaka Univ. 2, Glory Ltd. 3 *Takeshi Ikeda
1,2, Hideaki Kitahara 2, Tomoko Taniguchi 1, Yukio Minami 1, Takashi Inoue
2,3, Masahiko Tani 2, Masanori Hangyo 2
|
| 4.5 Nonlinear
Optics and THz-wave synthesis |
| Mar. 26 9:00〜15:00 |
| 26a-M- / III |
| |
1 |
Applicability of the random quasi phase matching |
Univ. Tokyo, PRESTO Takashi Kondo |
| △ |
2 |
Non-Steady State Analysis of Harmonic Generation
Considering Walk-off |
Osaka University 1 *Miyata Takafumi 1, Nomura Kazufumi
1, Ohmura Etsuji 1, Hirata Yoshinori 1 |
| |
3 |
Analysis of Frequency Conversion Considering Laser
Absorption with Repetitive Irradiation of Focused Beam |
Graduate school of engineering Osaka univ. *Nomura
Kazufumi 1, Miyata Takafumi 1, Ohmura Etsuji 1, Hirata Yoshinori 1 |
| |
4 |
First Principles Calculations of Nonlinear Optical
Susceptibilities \chi^{(2)} |
Univ. Tokyo 1, NIMS 2 Tomoyuki Hamada 1, Takahisa
Ohno 1,2 |
| |
5 |
Measurement of nonlinear refractive index by using
nonlinear dynamics generated in modulated OFRR |
Ibaraki Univ. 1 *Masakuni Mimuro 1, Yoh Imai 1 |
| |
6 |
Second-order nonlinear susceptibilities of a single
crystal of N-benzyl 2-methyl-4-nitroaniline |
Osaka City Univ. 1, Hamamatsu Photonics CRL 2,
PRESTO/JST 3 Masazumi Fujiwara 1, Minoru Maruyama 1, Mitsuru Sugisaki 1,
Kazuyoshi Kuroyanagi 2, Hironori Takahashi 2, Shin-ichiro Aoshima 2, Yutaka
Tsuchiya 2, Hideki Hashimoto 1,3 |
| |
7 |
Third order Susceptibility of C-S-Au thin film
by Plasma CVD and Sputtering
|
Nagoya Univ. 1, Aichi Inst. Tech. 25.4 Morita Shinzo
1, Kato Shinya 1, Ochiai Shizuyasu 2 |
| |
|
Break 10:45〜11:00 |
|
| |
8 |
Phase Matching Properties for AgGaGeS4 |
Chitose Inst. Science & Technology 1, RIKEN 2,
Max Born Inst. 3 *Miyata Kentaro 1, Umemura Nobuhiro 1, Kato Kiyoshi 1,
Saito Norihito 2, Wada Satoshi 2, Petrov Valentin 3 |
| |
9 |
Improvement in laser damage threshold of AR coatings
on LBO crystal |
Showa Optronics *Yamamura Norihiko 1,Nakajima Yasuhiro
1,Koguma Yasuo 1,Kimura Shinji 1,Izawa Takao
1 |
| |
10 |
Influence of water molecule impurities in CsLiB6O10
crystal on UV light generation |
Graduate School of Eng., Osaka Univ. 1, Advanced
Technology R&D Center, Mitsubishi Electric Co. 2 Honda Yoshiyuki 1,*Yoshimura
Masasi 1,Noro Hitomi 1,Kanoh Ai 1,Mori Yusuke 1,Sasaki Takatomo 1,Katsura
Tomotaka 2,Kojima Tetsuo 2,Nishimae Junichi 2 |
| |
11 |
Wavelength-agile coherent mid-IR source and spectrum
measurements |
Tohoku Univ. Katsuhiko Miyamoto, Koji Suizu, Jun-ichi
Shikata, Hiromasa Ito |
| |
12 |
Broadly tunable BiB3O6 parametric oscillaor pumped
at 1.0642μm |
Chitose Institute of Science and Technology Utagawa
Keitaro, Umemura Nobuhiro, Kato Kiyoshi |
| |
13 |
Development of 589.159 nm coherent light source
to produce laser guide star -Part II |
Solid-State Opt.Sci., RIKEN 1, MegaOpto 2, Subaru,
NAOJ 3,
Univ. of Tokyo 4, Opt. Infrared Astro.Div, NAOJ 5 *Norihito Saito 1, Kazuyuki
Akagawa 2, Yutaka Hayano 3, Mayumi Kato 1, Akira Takazawa 2,
Yoshihiko Saito 3, Meguru Ito 4, Hideki Takami 3, Masanori Iye 5, Satoshi
Wada 1 |
| |
|
Lunch 12:30〜13:30 |
|
| 26p-M- / III |
| △ |
1 |
Generation of chaos in Nd:YVO4 microchip
lasers with opto-electronic feedback |
Takushoku Univ. *Mizumura Keisuke 1, Uchida Atsushi
1, Yoshimori Shigeru 1 |
| △ |
2 |
Characteristics of fractal light scattering in
a mirror-ball polyhedral structure |
Takushoku Univ. *Sotome Satoshi 1, Tashiro Shinya
1, Uchida Atsushi 1, Yoshimori Shigeru 1 |
| △ |
3 |
Experiment on synchronization of chaos in single-mode
vertical-cavity surface-emitting lasers |
Takushoku Univ. *Mihara Takaya 1, Ozaki Mitsutoshi
1, Uchida Atsushi 1, Yoshimori Shigeru 1 |
| |
4 |
Nonlinear Dynamics in Optically-Injected Vertical-Cavity
Surface-Emitting lasers |
Shizuoka Univ. 1 *Odagami Taichi 1, Ohtsubo Junji
1 |
| |
5 |
Chaotic Dynamics in Modulated Self-pulsating Semiconductor
Lasers |
Shizuoka Univ. 1 *Matsumoto Michiaki 1,Ohtsubo
Junji 1 |
| |
6 |
Numerical Analysis for Filamentation in Broad Area
Semiconductor Laser |
Shizuoka Univ 1 *Mitsui Hideo 1,Ohtsubo Junji 1 |
| 4.6 Laser
Spectroscopy and Instrumentation |
| Mar. 25 |
| 25a-P5- / III |
| |
|
Poster Session
25a-P5-1〜13 9:30〜11:30 |
|
| |
1 |
Estimation of ionization / electromagnetic field
change in atmospheric discharges |
Chiba Univ. 1, CRIEPI 2 Tatsuo shiina 1, Yu Tanaka
1, Toshio Honda 1, and Tetsuo Fukuchi 2 |
| |
2 |
Low Altitude Ice Cloud Measurement on In-line Type
Lidar |
Chiba Univ 1, *Tanaka Yu 1,Shiina Tatsuo 1,Honda
Toshio 1 |
| |
3 |
Development of the gas-leak imaging system using
IR OPO |
Univ. of Fukui *Masaharu Imaki, Satoshi Hirota,
Hironori Inaba, Takao Kobayashi |
| |
4 |
Measurement method of atmosphericl properties with
ultraviolet high-spectral resolution lida |
Fukui Univ 1 *Iwasak Yuji 1,Imaki Masaharu 1,Kobayashi
Takao 1 |
| |
5 |
Transmission characteristics of wavefront controlled
beam in random media |
Graduate School of Sci. and Tech., Chiba Univ.
1, Faculty of Engin., Chiba Univ. 2 *Yosuke Tsuge 1, Tatsuo Shiina 2, Toshio
Honda 2 |
| |
6 |
Remote sensing of constituent of micro-particles
in air using an ultrashort-pulse high-intensity laser |
CRIEPI 1, The Graduate Univ. for Advanced Studies
2, Tokyo Inst. of Technology 3 *Takashi Fujii 1, Naohiko Goto 1, Kiyohiro
Sugiyama 2, Megumu Miki 1, Takuya Nayuki 1, Kumiko Nishikawa 3, Kazuhisa
Nakajima 2, Koshichi Nemoto 1 |
| |
7 |
OCT measurement of plant’s physiological response |
Graduate School of Sci. and Tech., Chiba Univ.1,
Faculty of Engin., Chiba Univ.2 Hiroyuki Makino 1, Tatsuo Shiina 2, and
Toshio Honda 2 |
| |
8 |
Trace Hydrogen detection based on Raman scattering
spectroscopy using passively locked external cavity diode laser |
Tokai Univ. 1 *Yamauchi Ken 1,Sato Jun-ichi 1,Nemoto
Kana 1,Yamaguchi Shigeru 1,
Endo Masamori 1,Nanri Kenzo 1,Fujioka Tomoo 1 |
| |
9 |
Developement of a Raman lidar for detection of
hydrogen gas |
Shikoku Research Inst. 1, CRIEPI 2 Hideki Ninomiya
1, Saeko Yaeshima 1, Tetsuo Fukuchi 2 |
| |
10 |
Development of trigger synchronization system based
on GPS for bistatic lidar measurement. |
CEReS Chiba Univ. 1 *Yohei Yamaguchi 1, Shunsuke
Fukagawa 1, Ikue Kouga 1, Hiroaki Kuze 1, Nobuo Takeuchi 1 |
| |
11 |
Polarization lidar observations of the stratospheric
aerosol and cirrus cloud over the equatorial region |
Tokyo Metropolitan Univ. 1 *Makoto Abo 1, Chikao
Nagasawa 1, Yasukuni Shibata 1 |
| |
12 |
Development of the 1.6μm differential absorption
lidar for carbon dioxide |
Tokyo Metropolitan Univ. 1,
Meteorological Research Inst. 2 Sakaizawa Daisuke 1,
Nagasawa Chikao 1,
Nagai Tomohiro 2,
Abo Makoto 1,
Shibata Yasukuni 1 |
| |
13 |
Development of Portable Coherent Doppler LIDAR
system for wind sensing |
Mitsubishi Electric Corp. Communication Systems
Center 1,
Mitsubishi Electric Corp. Information tech. R&D Center 2 *Toshiyuki ANDO
1, Masashi FURUTA 1, Hisamichi TANAKA 1, Tomoya MATSUDA 1, Shumpei KAMEYAMA
2, Yoshihito HIRANO 2 |
| 4.6 Laser
Spectroscopy and Instrumentation |
| Mar. 26 |
| 26a-P8- / III |
| |
|
Poster Session
26a-P8-1〜13 9:30〜11:30 |
|
| |
1 |
Identification and detection of isotopomers using
a quantum cascade laser |
Hamamatsu Photonics, Central Research Labs. *Akikusa
Naota 1,Edamura Tadataka 1,Sugiyama Atsushi 1,Ochiai Takahide 1,Yamanishi
Masamichi 1,Uehara Kiyoji 1,Kan Hirofumi 1 |
| △ |
2 |
Optimal control of nonadiabatic molecular alignment
with the feedback of ion images |
The Univ. of Tokyo 1 Yu Sugawwara 1, Takayuki Suzuki
1, Shinichirou Minemoto 1, Hirofumi Sakai 1 |
| |
3 |
Narrowing of Line Width of Neon by Using Optogalvanic
Effect with Two-Step Excitation |
Kochi Univ. of Technology *Onoda Yugo 1,Kimura
Masahiro 1 |
| |
4 |
Development of a generation system for Bose Einstein
condensates due to the optical trap method (II) |
NICT 1 Kurihara Kazuyoshi 1, Ohmukai Ryuzou 1,
Hyoudou Masaharu 1, Nakayama Kazuyuki 1, Watanabe Masayoshi 1 |
| |
5 |
A hexapole-compensated mirror-MOT and an S-shaped
magnetic surface trap for atom chips |
Natl. Inst. Info. Commun. Tech. (NICT) 1 *Hyodo
Masaharu 1, Nakayama Kazuyuki 1, Ohmukai Ryuzo 1, Kurihara Kazuyoshi 1,
Watanabe Masayoshi 1 |
| |
6 |
Development of atom chip technology with S-shaped
magnetic surface trap |
Kansai Advanced Research Center, NICT, 1 *Nakayama
Kazuyuki 1, Hyodo Masaharu 1, Ohmukai Ryuzou 1, Kurihara Kazuyoshi 1,
Watanabe Masayoshi 1 |
| △ |
7 |
Generation and control of monochromatic cesium
atomic beam using frequency modulated diode lasers |
IMRAM Tohoku Univ. 1 *Hirayama Toru 1, Sato Shunichi
1 |
| |
8 |
Highly stable Ti-Sapphire laser system with high
output power for quantum state manipulation of Ca ions |
Osaka Univ. 1, JST-CREST 2 Oikaze Hirotoshi 1,
Kanda Ken-ichi 1, *Toyoda Kenji 1, Urabe Shinji 1 |
| |
9 |
Polarization control of 589nm laser beam relayed
by an optical fiber for a laser guide star |
Univ. of Tokyo 1, Subaru Telescope NAO Japan 2,
Solid-State Optical Science RIKEN 3, NAO Japan 4, Megaopto Co. Ltd 5 *Meguru
Ito 1, Yutaka Hayano 2, Norihito Saito 3, Mayumi Kato 3, Yoshihiko Saito
2, Hideki Takami 2, Masanori Iye 4, Kazuyuki Akagawa 5, Akira Takazawa 5,
Satoshi Wada 3,5 |
| |
10 |
Influence of bandwidth and detuning of incident
laser spectrum on the production of sodium guide star |
Solid-State Opt.Sci., RIKEN 1, MegaOpto 2, Subaru,
NAOJ 3,
Univ. of Tokyo 4, Opt. Infrared Astro.Div, NAOJ 5 *Norihito Saito 1, Kazuyuki
Akagawa 2, Yutaka Hayano 3, Mayumi Kato 1, Akira Takazawa 2,
Yoshihiko Saito 3, Meguru Ito 4, Hideki Takami 3, Masanori Iye 5, Satoshi
Wada 1 |
| |
11 |
Atom Lithography Using an Extremely High-Intensity
and Far-Off Resonant Laser Light |
NICT 1 *Ohmukai Ryuzo 1, Kurihara Kazuyoshi 1,
Hyodo Masaharu 1, Nakayama Kazuyuki 1, Watanabe Masayoshi 1 |
| |
12 |
Development of carbon isotope analysis using the
rapid-swept CW laser cavity-ring-down absorption spectroscopy |
Nagoya Univ. *Takiguchi Yu 1,Tomita Hideki 1, Watanabe
Kenichi 1, Kawarabayashi Jun 1, Iguchi Tetuo 1 |
| |
13 |
Investigation of the atoms ablated by soft laser
ablation |
Grad. Sch. of ISEE, Kyushu Univ. 1, Kurume National
college of Tech. 2 *Nakamura Daisuke 1, Takao Takayuki 1, Oki Yuji 1, Maeda
Mitsuo 2 |
| 4.7 Laser
Processing |
| Mar. 25 9:30〜18:00 |
| 25a-L- / III |
| |
1 |
Measurements of B and BN densities in laser-ablation
plasmas with a BN target by laser-induced fluorescence |
Nagoya Univ. 1 *Yasuda Shin 1, Takada Noriharu
1, Sasaki Koichi 1 |
| |
2 |
Visualization measurement of behavior of particles
from laser-produced plasma |
ISEE Kyushu Univ. 1, Dept. Health Sci. Kyushu Univ.
2 Hashimoto Yuki 1, Matsumoto Atsushi 1, Tanaka Hiroki 1, Takahasi Akihiko
2, Okada Tatsuo 1 |
| |
3 |
Study on formation process of SiC films produced
by pulsed laser deposition in acetylene gas |
JAEA 1 *Saeki Morihisa 1, Ohba Hironori 1, Yamamoto
Hiroyuki 1, Yokoyama Atsushi 1 |
| |
4 |
LiNbO3 wave-guide thin films prepared
by PLA using single crystal target and in-situ acoustic wave monitoring
(2) |
Grad. School of National Sci. and Tech. Kanazawa
Univ. 1, Ishikawa National College of Technology 2 *Nobuhiro Kanaatani 1,
Takeshi Kawae 1, Shigeru Ohtsubo 2, Akiharu Morimoto 1, Minoru Kumeda 1
|
| |
5 |
Fabrication of particle-free thin films by laser
ablation (2) |
Hamamatsu Photonics K.K *Norio Ichikawa 1,Tadashi
Kitahara 1,Yoshiro Nomoto |
| |
|
Break 10:45〜11:00 |
|
| |
6 |
Characterization of nitrided particulates synthesized
by laser-ablation in liquid nitrogen |
Nagoya Univ. 1 *Takada Noriharu 1, Sasaki Koichi
1 |
| |
7 |
Effect of Hydrogen background gas on aggregation
mechanism and bandgap |
Dept.of Pysics Konan Univ. 1,Quantum Nanotech.
Lab. 2 *Kondo Issei 1,Umezu Ikurou 1 2,Sugimura Akira 1 2 |
| |
8 |
Synthesis and Applications of ZnO Nano-CrystalWires
by Laser Ablation |
Kyushu Univ. 1 *Ueda Makoto 1,Kawashima Kou 1,Higashihata
Mitsuhiro 1,Okada Tatsuo 1 |
| |
9 |
Synthesis of Pd Nanoparticles by Laser Ablation
in Water |
Kyushu Univ. 1 Okada Tatsuo 1,Higashihata Mitsuhiro
1,Kawashima Ko 1,Ueda Makoto 1 |
| |
10 |
An attempt for mass production of Zinc oxide nanoparticles
by pulsed laser ablation in liquid |
Nanoarchitectonics Res. Centr., AIST1 *Takeshi
Sasaki1, Mika Ito1, Naoto Koshizaki1 |
| ▲ |
11 |
Silicon nanocrystals prepared at low laser ablation
fluencies in water solution |
Nanoarchitectonics Res. Centr., AIST1 *Vladimir
Svrcek1, Takeshi Sasaki1, Yoshiki Shimizu1, Naoto Koshizaki1 |
| |
|
Lunch 12:30〜13:30 |
|
| 25p-L- / III |
| |
1 |
Formation of photocatalytic TiO2 micronetworks
on a UV-absorbing glass surface by UV laser irradiation |
AIST PRI 1, Nippon Sheet Glass Co. Ltd. 2 *Narazaki
Aiko 1, Kawaguchi Yoshizo 1, Niino Hiroyuki 1, Shojiya Masanori 2, Koyo
Hirotaka 2, Tsunetomo Keiji 2 |
| △ |
2 |
Femtosecond laser-induced phase transition of silicon
|
ILE Osaka Univ. 1,JWRI Osaka Univ. 2,ILT 3 *Izawa
Yusaku 1,Setuhara Yuichi 2,Fujita Masayuki 3,Izawa Yasukazu 1 |
| △ |
3 |
Pump-Probe measurement of femtosecond laser processing
for Si |
ILE Osaka Univ. 1,JWRI Osaka Univ. 2,ILE 3 *Izawa
Yusaku 1,Setuhara Yuichi 2,Fujita masayuki 3,Izawa Yasukazu 1 |
| △ |
4 |
Synthesis of monodispersed carbon nanoparticles
by liquid laser ablation |
IMRAM, Tohoku Univ. 1 Mochidzuki Yuzuru 1, Shimizu
Tasuku 1, Nakamura Takahiro 1, Sato Shunichi 1 |
| △ |
5 |
Evaluation of boron nitride thin film prepared
by femtosecond laser ablation |
IMRAM, Tohoku Univ. 1 *Shimizu Tasuku 1, Nakamura
Takahiro 1, Sato Shunichi 1 |
| △ |
6 |
Resist patterning process using a self-trapped
filament of femtosecond laser pulses |
Osaka Univ. 1,AIST 2,ISIR 3 *Mizoshiri Mizue 1,Nishiyama
Hiroaki 1,Hirata Yoshinori 1,Nishii Junji 2, Kawahara Toshio 3,Kawai Tomoji
3 |
| △ |
7 |
Two color laser microstereolithography: Photopolymerization
under a trapping potential of a focused near infrared laser beam |
Dept. Appl. Phys. 1, Dept. Chem. 2, Frontier Research
Center 3, Osaka Univ. *Tanaka Yoshito 1,3, Yoshikawa Hiroyuki 1,3, Ito Syoji
2, Miyasaka Hiroshi 2, Masuhara Hiroshi 1,3 |
| △ |
8 |
Microscopic isolation of protein crystal in solution
by femtosecond laser ablation |
Dept. of Appl. Phys., and VBL Osaka Univ. 1, CREST-JST
2 Yoshikawa Y. Hiroshi1, Hosokawa Yoichiroh1,2, Masuhara Hiroshi1,2 |
| |
|
Break 15:30〜15:45 |
|
| |
9 |
Comparison between femtosecond and nanosecond laser
ablationof samples applied on a substrate |
Genomic Sci. Center RIKEN 1, Disc. Res. Inst. RIKEN
2 *Kato Toshiyuki 1,2, Kobayashi Tohru 2, Matsuo Yukari 2, Kurata-Nishimura
Mizuki 1,2, Oyama Rieko 1,2, Matsumura Yonehiro 1, Yamamoto Hiroshi 1, Kawai
Jun 1,2, Hayashizaki Yoshihide 1,2 |
| |
10 |
LIF observation of neutral atoms and ions produced
by femtosecond laser ablation of sample on substrate |
RIKEN 1 *Matsuo Yukari 1, Kurata-Nishimura Mizuki
1, Kobayashi Tohru 1, Kato Toshiyuki 1, Oyama Rieko 1, Oho Yuko 1, Kawai
Jun 1, Hayashizaki Yoshihide 1 |
| |
11 |
Comparison of model analysis with experimental
observations of the hole-depth formed with a femtosecond laser on a silicon
substratre |
Tokai Univ. 1,Suruga Seiki Corp. 2 *Matsumura Takeshi
2,Nakatani Tomoya 1,Yagi Takashi 1 |
| |
12 |
Optical micro-spectroscopy of femtosecond laser-induced
periodic structures on semiconductor surfaces |
JSPMI 1,Graduate school of engineering The Univ.
of Tokushima 2 Makoto Yamaguchi 1,Shigeru Ueno 1, Keita Kinoshita 2, Toshiaki
Murai 2, Takuro Tomita 2, Shigeki Matsuo 2, Shuichi Hashimoto 2 |
| |
13 |
Observation of the embryotic stage of ripples by
a small number of femtosecond laser irradiation |
Univ. of Tokushima 1 *Fukumori Yasuhiro 1, Kinoshita
Keita 1, Tomita Takuro 1, Matsuo Shigeki 1, Hashimoto Shuichi 1 |
| |
14 |
Microstructures formation on metal plate by femtosecond
laser interaction with metal |
Osaka Univ. 1, JWRI Osaka Univ. 2, Kinki Univ.
3, CRC Miyazaki Univ. 4, ICR Kyoto Univ. 5, ILT 6 *Asuka Keita 1, Tsukamoto
Masahiro 2, Kayahara Takashi 1, Takahashi Yasuyuki 3, Nakano Hitoshi 3,
Katto Masahito 4, Hashida Masaki 5, Fujita Masayuki 6, Abe Nobuyuki 2 |
| |
15 |
Comparison of structural changes induced by femtosecond
laser pulses in various glasses |
Industrial Technology Center of Fukui Pref. 1,
Osaka Univ. 2 *Ashihara Masaaki 1, Matsui Futoshi 1, Watanabe Wataru 2,
Itoh Kazuyoshi 2, Matsuo Mitsuyasu 1 |
| |
16 |
Effect of femto-second laser irradiation on equilibrant
materials |
Murata Mfg., Co., Ltd. 1, Kyoto Univ. *Takashi
Fujii 1, Yukio Sakabe 1, Kazuyuki Hirao 2 |
| |
17 |
Holographic femtosecond laser processing with multiplexed
phase Fresnel lenses |
Tokushima Univ. 1 *Hasegawa Satoshi 1, Hayasaki
Yoshio 1, Nishida Nobuo 1
|
| 4.7 Laser
Processing |
| Mar. 26 9:00〜15:00 |
| 26a-L- / III |
| |
1 |
Real Time Measurement of Hydrophilic Treating Process
on Fluorocarbon Surface by Using FT−IR |
Tokai Univ. 1, Tokyo Inst. of Tech. 2 *Sato Yuki
1, Sato Yuji 2, Murahara Masataka 2 |
| |
2 |
Photochemical Waterproof Coating on Nonlinear Optical
Crystal Surface using Excimer Light (5) |
Tokai Univ. 1, Tokyo Inst. of Tech. 2, Okamoto
Optics Co. 3 *Nobuhiro Sato 1, Yuji Sato 2, Yoshiaki Okamoto 3, Masataka
Murahara 2 |
| |
3 |
Heat-resistant tough adhesion of fused silica glass
by photo-oxidation of silicone oil |
Tokai Univ.1, Okamoto Optic Co.2, Tokyo Institute
of Technol.3 *Funatsu Takayuki 1, Okamoto Yosiaki 2, Sato Yuji 3, Murahara
Masataka 3 |
| |
4 |
Formation of SiO2 Films by F2
Laser-Chemical Vapor Deposition for Microsphere Bonding |
National Defense Academy *Cho Jaebong 1,Okoshi
Masayuki 1,Inoue Narumi 1 |
| |
5 |
High Voltage Induced Photo Chemical Surface Modification
on PTFE |
Tokai Univ. 1, Tokyo Inst. 2 *Anai Hiroyuki 1,
Sato Yuji 2, Murahara Masataka 2 |
| |
6 |
Surface Processing on Plastic Optical Fibers using
UV Lasers |
ITC of Fukui Pref. 1, Tsutani Textile Manuf. 2 *Aoyagi
Yuji 1, Tsutani Masukiyo 2, Yamamoto Yuji 2 |
| |
|
Break 10:30〜10:45 |
|
| |
7 |
Development of Fibrin-free Intraocular Lens for
Blocking After-cataract by Using VUV Photon |
Tokyo Inst. of Technol. *Sato Yuji 1, Murahara
Masataka 1 |
| |
8 |
Change in Structures of Amino acids as a Result
of Femtosecond Laser Irradiation |
kinki Univ.1, JWRI,Osaka Univ.2 *N. Tamai1, M.
Nii1, M. Tsukamoto2, N. Abe2, and H. Nakano1 |
| |
9 |
Micropatterning of biomaterials utilizing focused
femtosecond laser. Part 2 |
Dept. of Appl. Phys. 1, Graduate School of Frontier
Bioscience 2, Venture Business Lab. 3, Osaka Univ., and JST-CREST 4 Yoichiroh
Hosokawa 1,3,4, Takahiro Kaji 2,3,4, Hiroshi Masuhara 1,2,3,4 |
| |
10 |
Preparation of A Biochip Incorporating 2-D Microbead
Array by LIBWE Method |
AIST PRI *Tadatake Sato 1, Ryozo Kurosaki 1, Aiko
Narazaki 1, Yoshizo Kawaguchi 1, Hiroyuki Niino 1 |
| |
11 |
Manufacture of microchannel for confining living
cell by femtosecond laser |
RIKEN 1,Tokyo Univ. of Science 2, Tokyo Denki Univ.
3 *Yasutaka Hanada 1,2, Koji Sugioka 1,2, Zyun Morita 1,3, Hiroyuki Kawano
1, Ikuko Ishikawa 1, Atsushi Miyawaki 1, Hiroshi Takai 3, Iwao Miyamoto
2, Katsumi Midorikawa 1
|
| |
|
Lunch 12:00〜13:00 |
|
| 26p-L- / III |
| |
1 |
High-Energy Ablation of Optical Materials Using
Pulsed Laser Plasma Soft X-rays |
Inst. of Appl. Phys.,Univ. of Tsukuba 1,AIST PRI
2,S. R. P. "Nano Science" 3 *Fujimori Takashige 1,Makimura tetsuya 1,Uchida
Satoshi 1,Niino Hiroyuki 2,Murakami Kouichi 1,3 |
| |
2 |
Nano-Ablation Process of Quartz Glass Induced by
Laser Plasma Soft X-Rays |
Inst. of Appl. Phys. Univ. of Tsukuba 1, AIST PRI
2, S.R.P. “Nano Science”3 Uchida Satoshi 1, Fujimori Takaomi 1, Makimura
Tetsuya 1, Niino Hiroyuki 2, Murakami Koichi 1 3 |
| |
3 |
Fabrication of UV micro-optics by F2
laser ablation |
RIKEN 1, Tokyo Univ. Science 2 *Obata Kotaro 1,
Hanada Yasutaka 2, Sugioka Koji 1, Miyamoto Iwao 2, Midorikawa Katsumi 1 |
| |
4 |
Transfer of deep microtrench array structures of
silica glass by LIBWE method to polymeric surfaces |
Nat. Inst. of Adv. Indust. Sci. and Technol.(AIST)
1 *Kawaguchi Yoshizo 1,Sato Tadatake 1,Narazaki Aiko 1, Kurosaki Ryozo 1,
Niino Hiroyuki 1 |
| |
5 |
Microfabrication of silica glass by LIBWE method
with a DPSS UV laser |
AIST, PRI * Hiroyuki Niino, Yoshizo Kawaguchi,
Tadatake Sato, Aiko Narazaki, Ryozo Kurosaki |
| |
6 |
Resolution limit in Pt patterning by laser lift-off
process |
Grad. School of Natural Sci. & Tech. Kanazawa Univ.
1,Fac. of Eng. Kanazawa Univ. 2,Ishikawa-NCT 3 *Norichi Takahiro 1,Iiyama
Koichi 1,Nagakoshi Yasuhito 2,Ohtsubo Shigeru 3,Kawae Takeshi 1,Morimoto
Akiharu 1,Kumeda Minoru 1 |
| |
7 |
Nano-patterning using a Deep UV laser interference
technique |
Seiko Epson Corp. *Sawaki Daisuke 1,Amako Jun 1 |
| |
8 |
Feasibility study of micro- and nano-patterning
using a fringe-shifted holographic technique |
Seiko Epson Corp. Amako Jun 1, Sawaki Daisuke 1,
Fujii Eiichi 1, Inoue Satoshi 1 |