1. No category

OPIC 2015 Advance Program - OPTICS & PHOTONICS International

OPTICS & PHOTONICS International Congress 2015
OPIC 2015
Advance Program
同時開催:OPTICS & PHOTONICS International Exhibition 2015
http://opicon.jp/
統括主催
一般社団法人
OPTICS & PHOTONICS International 協議会
■開催日: 2015年4月22日(水) ~24日 (金)
■会 場: パシフィコ横浜・会議センター
統括主催
一般社団法人OPTICS & PHOTONICS INTRENATIONAL協議会(OPI協議会)
専門国際会議主催
一般社団法人 レーザー学会、公益社団法人 応用物理学会、一般社団法人 日本光学会、
大阪大学レーザーエネルギー学研究センター、名古屋大学赤﨑研究センター
後援
文部科学省,経済産業省,農林水産省,厚生労働省,国土交通省,日本経済団体連合会
協賛・協力
産業技術総合研究所、新エネルギー・産業技術総合開発機構、科学技術振興機構、日本原子力研究開
発機構、理化学研究所、日本原子力学会、プラズマ・核融合学会、光産業技術振興協会、レーザー技
術総合研究所、日本フォトニクス協議会、SPIE(米)、OSA(米)
、メッセシュトゥットガルト(独)
、
PIDA(台)
、KAPID(韓)
、Photonics Media(米)
1
開催趣旨
本国際会議(OPIC)は世界各国の光・レーザー技術を基盤とした学術および産業の最先端を集結
し、学術発表と技術展示を併設することにより光・レーザー技術によりもたらされる具体的な未来社
会への指針を得ることを目的として毎年開催している。
OPIC は光・レーザー分野に関し、産業界(インダストリー)と学界(アカデミア)との連携・協
力を促進し、光技術・光産業の振興により、科学技術に立脚した我が国の産業を継続的に発展させる
ため、日本の学術研究者の総力を挙げて定期的に開催する唯一の光関連の国際会議と位置付けてい
る。2012 年の第 1 回開催以来、毎年 4 月にパシフィコ横浜で開催して、年々、専門会議数、会議参
加者数、参加国数、外国人参加者数が増加しており、2015 年は第 4 回 OPIC となる。
地球規模の諸課題の解決と世界の持続的な発展における光技術の重要性が認識され、2015 年を光
および光技術の国際年(International Year of Light and Light-based Technologies: IYL 2015)
とすることが国際連合の総会で 2013 年 12 月 20 日に決議された。IYL 2015 の理念を踏まえ、光・レ
ーザー技術が科学・技術と産業の中心的な担い手になることを期待し、OPIC2015 を開催する。
会議日程
4 月 22 日(水)
OPIC2015 プレナリーセッション
専門国際会議ジョイントセッション
OPIC バンケット
4 月 23 日(木)
専門国際会議, ポスターセッション
4 月 24 日(金)
専門国際会議, ポスターセッション
2
Committee Members
■Congress Chairs
伊賀健一(Chair, 東京工業大学 前学長)
Andreas Ostendorf(Chair, Ruhr-University Bochum, Germany)
Chris Barty (Chair, Lawrence Livermore National Laboratory, USA)
■International Advisory Board
中井貞雄(Chair、大阪大学名誉教授)
Bill Goldstein (米国、LLNL 所長)
赤﨑 勇(名古屋大学特別教授)
Gérard Mourou(仏国、エコール・ポリテク
ニーク教授)
川合眞紀(理化学研究所理事)
John Collier(英国、ラザフォード研レーザ
ー研究所長)
中村道治(科学技術振興機構理事長)
中鉢良治(産業技術総合研究所理事長)
晝馬輝夫(浜松ホトニクス会長)
Jongmin. Lee(韓国、韓東大学教授、GiLT 所
長)
古川一夫(新エネルギー・産業技術総合開発
機構理事長)
Jie Zhang(中国、上海交通大学学長)
松浦祥次郎(日本原子力研究開発機構理事長
Reinhart Poprawe(独国、フラウンホーファ
レーザー研所長)
■組織委員
加藤義章(Chair、光産創大学長、レーザー
学会会長)
小原 實(慶応義塾大学名誉教授)
梅田倫弘(Vice Chair, 東京農工大学、応用
物理学会 日本光学会幹事長)
近藤 直(京都大学)
片山聖二(Vice Chair、大阪大学、レーザ加
工学会会長)
實野孝久(大阪大学)
菊地 眞(Vice Chair、医療機器センター理
事長、日本レーザー医学会理事
長)
武田光夫(宇都宮大学)
神成文彦(慶應義塾大学)
近藤宣之(レーザー輸入振興協会会長)
平等拓範(分子科学研究所)
羽鳥光俊(日本フォトニクス協議会理事長、
東京大学名誉教授)
阪部周二(Vice Chair、京都大学)
谷田貝豊彦(Vice Chair、宇都宮大学、SPIE
会長)
堀池 寛(大阪大学)
宮永憲明(大阪大学、ALPS)
緑川克美(理化学研究所)
岩井俊昭(東京農工大、APBE)
三間圀興(光産業創成大学院大学)
疇地 宏(大阪大学、CLE)
岡田直忠(東芝)
黒田和男(宇都宮大学、LDC)
尾形仁士(三菱電機社友)
兒玉了祐(大阪大学、HEDS)
長我部信行(日立製作所 中央研究所所長)
天野 浩(名古屋大学、LEDIA)
原
三木哲也(電気通信大学名誉教授)
尾松孝茂(千葉大学、OMC)
勉 (浜松ホトニクス
長)
中央研究所所
渡辺正信(産総研)
植田憲一(電気通信大学名誉教授)
■運営委員
井澤靖和(Chair、レーザー技術総合研究所
所長)
河合 滋(オプト・イーカレッジ)
山本和久(Vice Chair、大阪大学)
塚本雅裕(大阪大学)
赤松史光(大阪大学)
西村博明(大阪大学)
黒澤 宏(科学技術振興機構)
3
西澤紘一(諏訪東京理科大学)
森
勇介(大阪大学)
藤田雅之(レーザー技術総合研究所)
鷲尾邦彦(パラダイムレーザーリサーチ)
細貝知直(大阪大学)
■展示委員
山本和久(Chair、大阪大学)
伊藤寛治(浜松ホトニクス)
近藤宣之(日本レーザー)
中井哲哉(ソーラボジャパン)
中村 強(トルンプ)
PLENARY SESSION
OPIC2015初日の2015年4月22日(水)午前にプレナリーセッションを開催します。
JOINT SESSION
OPIC2015初日の2015年4月22日(水)午後に3つのジョイントセッションを開催します。
JOINT Session ALPS&CLE&HEDS,
JOINT Session LDC&LEDIA,
JOINT Session OMC&APBP
POSTER SESSION
各専門会議では、オーラルプレゼンテーションの他にポスターセッションを予定しています。
詳しくは、各会議のプログラムをご覧ください。
公式言語: 英語
参加登録
Registration Fees
(Member*)
Before/On Mar. 20, 2015
Conference (General)
After Mar. 21, 2015
¥40, 000
(Student, Retiree)
¥18, 000
* Member of organizer, sponsor and cooperative societies
Registration Fees
& On-Site
¥45, 000
¥21, 000
(Non-Member)
Before/On Mar. 20, 2015
After Mar. 21, 2015
& On-Site
Conference (General)
¥45, 000
¥50, 000
(Student, Retiree)
¥21, 000
¥23, 000
4
OPIC2015は以下の団体よりご支援を頂いております。
■ Financial Support
公益財団法人天田財団、公益財団法人日本硝子工学助成会、
■ Sponsor Ship
浜松ホトニクス、オプトサイエンス、日本レーザー、ソーラボジャパン、オフィールジャパン、
日星電気、岡本光学加工所、シグマ光機、スペクトラ・フィジックス
■ International Partner
SPIE
■ Media Partner
PHITONICS MEDIA、オプトロニクス社
場所
パシフィコ横浜 会議センター
〒220-0012 横浜市西区みなとみらい1-1-1
Tel:045-221-2166
http://www.pacifico.co.jp/english/index.html
連絡先
一般社団法人OPTICS & PHOTONICS INTRENATIONA協議会
OPIC2015事務局 窪田/小椋/柴崎/上野
[email protected]
〒162-0814 東京都新宿区新小川町5-5 サンケンビル1F オプトロニクス社気付
TEL 03-5228-3541 FAX 03-3269-2551
5
OPIC2015 Congressプログラム
Plenary Session
Room 501+502
4月22日(水)午前
Opening Remarks
9:15-9.25
Congress Chair
伊賀健一(東京工業大学前学長)
Congress Chair
Andreas Ostendorf(Ruhr-University Bochum, Germany)
Keynote Speeches
9:25-10:45
1) Digital Photonic Production- the role of Lasers in Industry 4.0
Reinhart Poprawe (Fraunhofer Inst. for Laser Tech., Germany)
2) Nuclear Photonics for the 21st Century
Chris Barty ( Lawrence Livermore National Laboratory, USA)
Special Talks
11:00-12:30
1) 光通信の発展と半導体レーザーの今後への期待
末松安晴(高柳健次郎財団 理事長、東京工業大学栄誉教授)
2) ノーベル物理学賞受賞記念講演
天野
浩(LEDIA’15 Chair, 名古屋大学)
JOINT Sessions & Conferences
4 月 22 日(水)午後~24 日(金)
■ ALPS '15 : The 4th Advanced Lasers and Photon Sources <先進レーザーと光源技術>
主催:レーザー学会 Conference Chair:宮永憲明(大阪大学)
■ APBP '15 : The 5th Asian and Pacific-Rim Symposium on Biophotonics
<バイオメディカル フォトニクス>
主催:日本光学会 Conference Chair:岩井俊昭(東京農工大)
■ CLE 2015 : The 1st Conference on Laser Energetics
<レーザーエネルギー学>
主催:大阪大学レーザーエネルギー学研究センター Conference Chair:疇地 宏(大阪大学)
■ HEDS 2015 : International Conference on High Energy Density Science 2015
<高エネルギー密度科学の応用>
主催:レーザー学会 Conference Chair:兒玉了祐(大阪大学)
■ LDC 2015 : The 4th Laser Display and Lighting Conference <レーザーディスプレイ>
共催:応用物理学会、日本光学会 Conference Chair:黒田和男(宇都宮大学)
■ LEDIA’15 : The 3rd International Conference on Light-Emitting Devices and
Their Industrial Applications
<LED とその産業応用>
主催:名古屋大学赤﨑研究センター
Conference Chair:天野 浩(名古屋大学)
■ OMC '15 : The 2nd Optical Manipulation Conference
<光マニュピュレーション>
主催:応用物理学会 Conference Chair:尾松孝茂(千葉大学)
6
会場、会議室配置図
7
OPIC2015専門国際会議プログラム(詳細)
先進レーザーと光源技術 ……………………………………………………………………… 9
ALPS'15 : The 4th Advanced Lasers and Photon Sources
バイオメディカル フォトニクス……………………………………………………………… 20
APBP '15 : The 5th Asian and Pacific-Rim Symposium on Biophotonics
レーザーエネルギー学
……………………………………………………………… 25
CLE 2015 : The 1st Conference on Laser Energetics
高エネルギー密度科学の応用
………………………………………………………………30
HEDS 2015 : International Conference on High Energy Density Science 2015
レーザーディスプレイ
……………………………………………………………… 34
LDC 2015 : The 4th Laser Display and Lighting Conference
LEDとその産業応用
……………………………………………………………………………36
LEDIA'15 : The 3rd International Conference on Light-Emitting Devices and
Their Industrial Applications
光マニュピュレーション ……………………………………………………………………… 42
OMC'15 : The 2nd Optical Manipulation Conference
8
The 4th Advanced Lasers and Photon Sources Conference
ALPS’15
Wednesday, April 22
Room 303
13:40-17:30 ALPS, CLE, HEDS Joint Session
Chair: H. Azechi, Conference Chair of CLE’15, Osaka Univ., Japan
HEDSj1-1
13:40
HEDSj1-2
14:10
ALPSj1-1
14:40
CLEj1-1
15:10
(Invited) High Energy Density Science Explored with High-Power-Laser and Plasma-Device Technologies
R. Kodama
OsakaUniv., Japan
(Invited) Status and Challenges of the Compact XFEL Facility SACLA
M. Yabashi
RIKEN Spring-8 Center, Japan
(Invited) Prospects for Advanced X-Ray and Gamma-Ray Sources with Exawatt Laser Facility XCELS
A. M. Sergeev1,2), A. V. Bashinov1,2), A. A. Gonoskov1,2,3), E. S. Efimenko1,2), A. V. Korzhimanov1,2), A. A. Muraviev1,2),
A. V. Kim1,2)
1)Inst. of Appl. Phys. of Russian Academy of Sci., Russia, 2)Univ. of Nizhny Novgorod, Russia, 3)Chalmers Univ. of
Tech., Sweden
(Invited) Laboratory Astrophysical Collisionless Shock Experiments on Omega and NIF*
H.-S. Park1), C. M. Huntington1), F. Fiuza1,2), R. P. Drake3), D. Froula4), G. Gregori5), M. Koenig6), C. Kuranz3), D.
Lamb7), M. Levy1,5), C. K. Li8), J. Meinecke5), R. Petrasso8), B. B. Pollock1), B. A. Remington1), H. Rinderknecht8), M.
Rosenberg4), J. S. Ross1), D. D. Ryutov1), Y. Sakawa9), A Spitkovsky10), H. Takabe9), D. P. Turnbull1), P.
Tzeferacos7), S. V. Weber1), A. B. Zylstra8)
1)Lawrence Livermore National Lab., USA, 2)SLAC National Accelerator Lab., USA, 3)Univ. of Michigan, USA, 4)Lab.
for Laser Energetics, Univ. of Rochester, USA, 5)Univ. of Oxford, UK, 6)LULI, Ecole Polytechnique, France, 7)Univ. of
Chicago, USA, 8)Massachusetts Inst. of Tech., USA, 9)ILE, Osaka Univ., Japan, 10)Princeton Univ., USA
----- Break (15:40-16:00)-----
ALPSj1-2
16:00
HEDSj1-3
16:30
CLEj1-2
17:00
(Invited) Advancement of Laser-Driven Compact Particle Accelerators
C. H. Nam1),2), H. T. Kim1),3), V. B. Pathak1), K. H. Pae1), S. K. Lee1),3), J. H. Sung1),3), H. W. Lee1), J. H. Shin1), K.
Nakajima1)
1)Center for Relativistic Laser Sci., Inst. for Basic Sci. (IBS), Korea, 2)Dept. of Phys. and Photon Sci., GIST, Korea,
3)Advanced Photonics Res. Inst., GIST, Korea
(Invited) High Energy Photon and Charged Particle Sources with Relativistic Mirrors: Novel Results and
Perspectives
S. Bulanov
JAEA, Japan
(Invited) Tuning Laser Produced Electron-Positron Jets for Lab-Astrophysics Experiment
H. Chen1), F. Fiuza2), A. Hazi1), R. Heeter1), A. Kemp1), G. E. Kemp1), A. Link1), B. Pollock1), E. Marley1), S. R.
Nagel1), J. Park1), M. Schneider1), R. Shepherd1), R. Tommasini1), S. C. Wilks1), G. J. Williams1), D. Barnak3), P-Y.
Chang3), G. Fiksel3), V. Glebov3), D. D. Meyerhofer3), J. F. Myatt3), C. Stoeckel3), M. Nakai4), Y. Arikawa4), H.
Azechi4), S. Fujioka4), H. Hosoda4), S. Kojima4), N. Miyanaga4), T. Morita4), T. Moritaka4), T. Nagai4), T. Namimoto4),
H. Nishimura4), T. Ozaki4), Y. Sakawa4), H. Takabe4), Z. Zhang4)
1)Lawrence Livermore National Lab., USA, 2)SLAC National Accelerator Lab., USA, 3)LLE, Univ. of Rochester, USA,
4)ILE, Osaka Univ., Japan
----- Break / Move (17:30-18:00)-----
OPIC Banquet
9
Room 501+502
Thursday, April 23
9:00-9:05
Opening Address
N. Miyanaga, Conference Chair of ALPS’15, Osaka Univ., Japan
9:15-12:30
ALPS2 : Optical Frequency Comb
Chair: H. Inaba, Program Committee Member
AIST, Japan
Room 302
Room 311+312
9:15-12:30 ALPS3 : Metamaterial and Nano-Material
Chair: T. Tanaka, Program Committee Member
RIKEN, Japan
ALPS2-1
9:15
(Invited) Towards a 30 GHz Astrocomb for the
Near-Infrared
G. Ycas1), D. C. Hackett1), S. Diddams2)
1)Dep. of Phys., Univ. of Colorado, USA
2)National Inst. of Std. and Tech., USA
ALPS3-1
9:15
(Invited) Recent Progress in Resonance
Enhancement
of
Light Emissions
on
Metasurfaces
M. Iwanaga1), B. Choi1), H. T. Miyazaki1), Y.
Sugimoto1), and K. Sakoda1,2)
1)NIMS, Japan, 2)Tsukuba Univ., Japan
ALPS2-2
9:45
Spectroscopy and Frequency Measurement of
the Clock Transitions in 171Yb and 87Sr Based on
Linewidth Transfer Using a Narrow Linewidth
Frequency Comb
T. Tanabe1), M. Yasuda1), D. Akamatsu1), T.
Kobayashi1,2), H. Inaba1), S. Okubo1), A. Onae1),
F.-L. Hong1, 2), and K. Hosaka1)
1)National Metrology Inst. of Japan (NMIJ),
National Inst. of Advanced Industrial Sci.and Tech.
(AIST), Japan, 2)Dept. of Phys., Yokohama
National Univ., Japan
An Yb-Fiber Laser Comb with Mode Spacing of
Higher than 20 GHz by Using Two Fabry-Pérot
Cavities Comb
L. Hou, H. Han, L. Zhang, L. Pang, Z. Wei
Beijing National Lab. for Condensed Matter Phys.,
Inst. of Phys., CAS, China
Highly stabilized fiber-based optical frequency
comb interferometer with meters-wide scanning
range
Y. Nakajima 1,2), K. Minoshima 1,2)
1)UEC, Japan, 2)JST, ERATO Intelligent Optical
Synthesizer Project, Japan
ALPS3-2
9:45
Plasmonic Coupling between Gold Curvilinear
Nanorods and Straight Nanorods with
Controlling Gap Distance
Y. Yokota1), T. Tanaka1,2,3)
1)RIKEN, Japan, 2)Hokkaido Univ., Japan, 3)Tokyo
Tech., Japan
ALPS3-3
10:00
Interfering Ultraviolet Femtosecond
Processing of Metallic Thin Films
Y. Nakata1), N. Miyanaga1), Y. Matsuba2)
1)Osaka Univ., 2)Sakai City Office
ALPS3-4
10:15
Effects of Prestrain Applied to Poly(Ethylene
Terephthalate) Substrate on Microstructures of
Porous TiO2 Film and Optical
T.-C. Li, J.-F. Lin
National Cheng Kung Univ., Taiwan
ALPS2-3
10:00
ALPS2-4
10:15
Laser
----- Break (10:30-11:00)----Room 302
11:00-12:30 ALPS4 : High Energy Light Sources and
Applications
Chair: T. Kawachi, Program Committee Member,
JAEA, Japan
Room 311+312
11:00-12:30 ALPS5 : Novel Material
Chair: T. Tanabe, Steering Committee Member,
Keio Univ., Japan
ALPS4-1
11:00
ALPS5-1
11:00
(Invited) High Average Power Table-top Soft
X-Ray Lasers
J. J. Rocca1),2) B. A. Reagan1), C. Baumgarten1),,
Y. Wang1), S. Wang1), A. Rockwood1), L. Yin1),
M. C. Marconi1), V.N. Shlyaptsev1), C. S. Menoni1)
1)Dep. of Electrical Eng., Colorado State Univ.,
USA, 2)Dep. of Phys., Colorado State Univ., USA
ALPS5-2
11:15
ALPS4-2
11:30
In Situ 3D Visualization of XFEL Beam
Focusing Properties Using LiF Crystal X-ray
Detector
10
ALPS5-3
11:30
Spontaneous Parametric Down Conversion in
Periodically
Poled
Lithium
Tantalate
Waveguide
H. H. Lim1), S. Kurimura1), K. Fujii1), M. Okano2),
S. Takeuchi2),3),4)
1)NIMS, Japan, 2)Kyoto Univ., Japan, 3)Hokkaido
Univ., Japan, 4)Osaka Univ., Japan
Highly Efficient 355 nm UV Light Generation
in CsLiB6O10
M. Yoshimura, C. Qu, Y. Takahashi, and Y. Mori
Osaka Univ., Japan
High Peak Output Power External Cavity
Mid-IR Quantum Cascade Lasers
T. Edamura, T. Dougakiuchi, N. Akikusa
ALPS4-3
11:45
ALPS4-4
12:00
ALPS4-5
12:15
T. Pikuz1,2), A. Faenov2,3), T. Matsuoka3), S.
Matsuyama4), K. Yamauchi4,5), N. Ozaki), Y.
Inubashi6), M. Yabashi6,7), Y. Sato8), H. Yumoto6),
H. Ohashi6,7), A. Grum-Grzhimailo9), M.
Nishikino10), T. Kawachi10), T. Ishikawa6,7), R.
Kodama1,3)
1)PPC and GSE Osaka University, Japan, 2)Joint
Inst. High Temperatures, RAS, Russia, 3)Inst.
Academic Initiatives, Osaka Univ., Japan, 4)Dep.
Precision Sci. and Tech., Osaka Univ., Japan,
5)Center for Ultra-Precision Sci. and Tech., Osaka
Univ., Japan, 6)JASRI/SPring-8, 7)RIKEN Harima
Inst., Japan, 8)Div. of Electrical, Electronic and
Information Eng., Osaka Univ., Japan, 9)Skobeltsyn
Inst. Nuclear Phys., Lomonosov Moscow State
Univ., Russia, 10)Quantum Beam Sci. Center,
JAEA, Japan
Observation of Femtosecond Laser Ablation
Process on Tungsten by Using a Soft X-Ray
Laser Probe
M. Nishikino1), N. Hasegawa1), T. Tomita2), T.
Eyama2), N. Kakimoto2), N. Ohnishi3), A. M. Ito4),
M. Baba5), Y. Minami5), A. Faenov6), N.
Inogamov7), T. Kawachi1), M. Yamagiwa1), and T.
Suemoto5)
1)QuBS JAEA, Japan, 2)Univ. of Tokushima, Japan,
3)Tohoku Univ., Japan, 4)NIFS, Japan, 5)ISSP, Univ.
of Tokyo, Japan, 6)Osaka Univ., Japan, 7)Russian
Academy of Sci., Russia
Photodissociation of 1,2-Butadiene Studied by
Time-Resolved Molecular Orbital Spectroscopy
Using Single-Order High Harmonic Pulses
R. Iikubo1), T. Fujiwara1), T. Sekikawa1), Y.
Harabuchi2), T. Taketsugu2), and Y. Kayanuma3)
1)Dep. Appl. Phys., Hokkaido Univ., Japan, 2) Dep.
Chem., Hokkaido Univ., Japan, 3) Mater. Struct.
Lab., Tokyo Inst. Tech., Japan
High-Efficient Coherent Lyman-α Resonance
Radiation in Two-Photon Resonance Four-Wave
311+312Mixing
N. Saito1), Y. Oishi2), K. Miyazaki1), K. Okamura1),
O. Louchev1), M. Iwasaki2), S. Wada1)
1)Center for Adv. Photonics, 2)RIKEN Nishina
Center for Accelerator-Based Sci., Japan
Hamamatsu Photonics K.K., Japan
ALPS5-4
11:45
Energy Transfer Process in Nd/Cr:YAG
Ceramics
Y. Honda1), S. Motokoshi2), T. Jitsuno1), N.
Miyanaga1), K. Fujioka1), M. Nakatsuka2), M.
Yoshida3)
1)ILE Osaka Univ., Japan, 2)Inst. Laser Tech.,
3)Kinki Univ., Japan
ALPS5-5
12:00
Large Thermo-Optic Effects in Silica-Gold
Composite Toroidal Microcavity
S. Tamaki1), W. Yoshiki2) and T. Tanabe3)
Keio Univ., Japan
ALPS5-6
12:15
Pulsed Laser Interference Patterning of
Polyimide for Dye Doped Polymer Laser
S. Y. Kok1), T. Y. Tou1), S. S. Yap1,2)
1)Multimedia University, Malaysia, 2)University of
Malaya, Malaysia
----- Lunch Break (12:30-13:30)----Room 302
ALPS6 : High Energy Light Sources (cont’d)
and High Average Power Lasers
Chair: S. Kubodera, Program Committee Member
Miyazaki Univ., Japan
13:30-15:00
ALPS6-1
13:30
ALPS6-2
13:45
Development of Excimer Laser System for the
Next
Generation
Multiple
Patterning
Immersion Lithography
T. Mimura, T. Kumazaki, H. Tsushima, T. Ohta, A.
Kurosu, K. Kakizaki, T. Matsunaga, and H.
Mizoguchi
Gigaphoton Inc., Japan
LPP-EUV Source Technology for HVM
Lithography
T. Saito1), H. Nakarai1), T. Abe1), K. M. Nowak1), Y.
Kawasuji1), H. Tanaka1), Y. Watanabe1), T. Hori1), T.
11
13:30-17:30
Room 311+312
ALPS7 : Novel Material and Nonlinear Optics
Chair: H. Ishizuki
Inst. Molecular Sci., Japan
ALPS7-1
13:30
(Invited)
Parametric
Processes
in
Two-Dimensional Nonlinear Photonic Crystals
K. Gallo
KTH Royal Inst of Tech., Sweden
ALPS6-3
14:00
ALPS6-4
14:15
ALPS6-5
14:30
ALPS6-6
14:45
Kodama1), Y. Shiraishi1), T. Yanagida1), G.
Soumagne1), T. Yamazaki1), S. Okazaki2) and H.
Mizoguchi2)
1)Gigaphoton
Inc. Hiratsuka facility, Japan,
2)Gigaphoton Inc. Oyama facility, Japan
Efficient Extreme Ultraviolet Emission in
Highly Ionized High-Z Laser-Produced Plasmas
T. Higashiguchi1), R. Amano1), T.-H. Dinh1), T.
Miyazaki1), Y. Suzuki1), M. Kawasaki1), A.
Sasanuma1), G. Arai1), H. Hara1), Y. Fujii1), K.
Nanto1), A. Takahashi2), D. Nakamura2), T. Okada2),
T. Makimura3), T. Miura4), A. Endo4), B. Li5), P.
Dunne6), and G. O’Sulliban6)
1) Dep. Adv. Interdisciplinary Sci. and Center for
Opt. Res. (CORE), Utsunomiya Univ., Japan,
2)Kyushu Univ., Japan, 3)Univ. of Tsukuba, Japan,
4)HiLASE Centre, Czech, 5)Lanzhou Univ., 6)Univ.
College Dublin, Ireland
Effective Bandwidth Reduction and Wavelength
Locking for a High-Power Laser-Diode Stack by
an External-Cavity Technique
Y. Zheng, T. Kawashima, N. Satoh, T. Sekine, A.
Hiruma, T. Hiruma, and H. Kan
Hamamatsu Photonics K.K., Japan
Saturation of Absorption at Zero-Phonon-Line
in Yb:YAG Thin Disk
P. Severová1)2), T. Miura1), M. Chyla1)2), M. Smrž1),
M. Kawasaki3), T. Higashiguchi3), A. Endo1), T.
Mocek1)
1)HiLASE Centre, Inst. of Phys. ASCR, Czech,
2)Czech Tech. Univ. in Prague, FNSPE, Czech,
3)Utsunomiya Univ., CORE, Czech
Development of a Kerr Lens Mode-Locked
Yb:Lu2O3 Bulk Ceramic Oscillator Pumped by
a Multimode Laser Diode
T. Ishikawa1,2), A. A. Eilanlou1), Y. Nabekawa1), Y.
Fujihira3), T. Imahoko1,3), T. Sumiyoshi1,3), F.
Kannari2), M. Kuwata-Gonokami4,5), and K.
Midorikawa1,4)
1)RIKEN Center for Advanced Photonics, Japan,
2)Keio Univ., Japan, 3)Cyber Laser Inc., Japan,
4)Inst. for Photon Sci. and Tech., Univ. of Tokyo,
Japan, 5)Graduate School of Sci., Univ. of Tokyo,
Japan
ALPS7-2
14:00
Versatile Generation of Mid Infrared Pulses
through Difference Frequency Mixing in
Super-Continuum Pulses
F. Isa, L. Fujii, T. Suzuki, K. Hirosawa, and F.
Kannari
Keio Univ., Japan
ALPS7-3
14:15
Picosecond Pulsed High-Frequency
and
High-Power Second Harmonic Generation by a
Periodically Poled Stoichiometric LiTaO3
O. A. Louchev1), H. Hatano2), T.Tsukihana1), S.
Wada1), S. Takekawa2),and K. Kitamura2)
1)RIKEN, Japan, 2)NIMS, Japan
A Narrow Linewidth Diode Laser at 243nm
L. Hou, H. Han, L. Zhang, D. Li, Z. Wei
Beijing National Lab. for Condensed Matter Phys,
Inst. of Phys., CAS, China
ALPS7-4
14:30
ALPS7-5
14:45
Development of a Compact Iodine-Stabilized
Laser at 531 nm Using a Coin-Sized Diode
Laser Module
T. Kobayashi1,2,3), D. Akamatsu2), K. Hosaka2,3), H.
Inaba2,3), S. Okubo2,3), T. Tanabe2), M. Yasuda2), A.
Onae2,3), F.-L. Hong1,2,3)
1)Yokohama National Univ., Japan, 2)AIST, Japan,
3)JST-ERATO, Japan
----- Break (15:00-15:30) -----
15:30-17:00 ALPS8 : High Average Power Lasers
Chair: J. Kawanaka, Steering Committee Member,
Osaka Univ., Japan
Room 302
Room 311+312
15:30-17:00 ALPS9 : Teraheltz Sources and Applications
Chair: H. Minamide, Program Committee Member
RIKEN, Japan
ALPS8-1
15:30
ALPS9-1
15:30
ALPS8-2
15:45
Demonstration of Femtosecond Ti:sapphire
Laser Oscillation Pumped by Two Green InGaN
Diode Lasers
R. Sawada, H. Tanaka, R. Kariyama, A. Hosaka,
K.Hirosawa, and F. Kannari
Keio Univ., Japan
Current Status of the Development of the
Kumgang Laser - 0.4J/10kHz/10ns (4kW)
Coherent Beam Combination Laser Using
Self-Controlled Stimulated Brillouin Scattering
Phase Conjugate Mirrors (SBS-PCMs)
12
(Invited) First Achievement of Nitride
Semiconductor Based Terahertz Quantum
Cascade Laser
H. Hirayama and W. Terashima
RIKEN, Japan
ALPS8-3
16:00
ALPS8-4
16:15
ALPS8-5
16:30
ALPS8-6
16:45
H. J. Kong1), S. Park1), S. Cha1), H. Ahn1), H. Lee1),
J. Oh1), B. J. Lee2), S. Choi2), and J. S. Kim3)
1)KAIST, Korea, 2)HGU, Korea, 3)Laser Spectronix,
Korea
Development of a 180-W, 1-kHz Pulsed Green
Laser System for Industrial Applications
Y. Kato1,2), Y. Tamaoki1,2), T. Sekine1,2), Y.
Takeuchi1,2), K. Iyama1,2), T. Kurita1,2), T.
Kawashima1,2), and N. Miyanaga3)
1)Hamamatsu Photonics K.K., Japan, 2)Advanced
Laser and Process Tech. Res. Association
(ALPROT), Japan, 3)Inst.of Laser Eng., Osaka
Univ., Japan
QUADRA-T: A Driver Laser System for Intense
THz Pulse Generation
Y. Ochi, K. Nagashima, M. Maruyama, M.
Tsubouchi, N. Kono, F. Yoshida, A. Sugiyama
Quantum Beam Sci. Center, JAEA, Japan
Boosting Up the Intra-Cavity Average Power of
a Kerr Lens Mode-Locked Giant Thin-Disk
Ring Oscillator to Beyond a kW
A.
A.
Eilanlou1),
Y.
Nabekawa1),
M.
Kuwata-Gonokami2,3), and K. Midorikawa1,2)
1)RIKEN Center for Advanced Photonics, Japan,
2)Inst. for Photon Sci. and Tech., Univ. of Tokyo,
Japan, 3)Graduate School of Sci., Univ. of Tokyo,
Japan
1 J, 100 Hz Multiple Active-Mirror Laser
Amplifier Using YAG /Yb:YAG Composite
Ceramics
S. Tokita1), M. Divoky2), S.I. Hwang1), T.
Kawashima3), H. Nishioka4), A. Lucianetti2), J.
Kawanaka1)
1)ILE, Osaka Univ., Japan, 2)HiLASE project,
Czech, 3)Hamamatsu Photonics K.K., Japan,
4)UEC, Japan
13
ALPS9-2
16:00
Ultra-fast
and
ultra-broadband
optical-pump/THz-probe spectroscopy for the
study of carrier dynamics in Graphene
S. Ikeda1), M. Yamashita2), C. Otani1,2)
1)Grad. Sch. of Sci. Tohoku Univ., 2)RIKEN
ALPS9-3
16:15
Contact grating device with Fabry-Perot
resonator for effective THz light generation
M. Tsubouchi, K. Nagashima, F. Yoshida, Y. Ochi,
M. Maruyama
Japan Atomic Energy Agency
Terahertz waves generated by the interaction of
argon clusters and two-color laser pulses
K. Mori1,2), M. Hashida1,2), T. Nagashima3), S.
Inoue1,2), and S. Sakabe1,2)
1)ICR Kyoto Univ., 2)GSS Kyoto Univ., 3)Setsunan
Univ.
ALPS9-4
16:30
ALPS9-5
16:45
High-Peak-Power Terahertz-Wave Parametric
Generation and Highly-Sensitive Detection
Using Surface-Coupling Configuration
Y. Takida, T. Notake, K. Nawata, Y. Tokizane, S.
Hayashi, H. Minamide
RIKEN
Friday, April 24
Room 302
: Intense Ultrafast Sources and
Applications
Chair: T. Ozaki, Program Committee Member
INRS, Canada
9:00-10:30
ALPS10
Room 311+312
9:00-10:30
Chair: N. Nishizawa, Program Committee Chair
Nagoya Univ., Japan
ALPS10-1
9:00
(Invited) High-Energy Few-cycle Mid-IR
Parametric Amplification
A. Baltuska
Photonics Inst., Vienna Univ. of Tech., Switzerland
ALPS11-1
9:00
ALPS10-2
9:30
Kerr-lens Mode-Locked Yb3+-doped Lu3Al5O12
Ceramic Laser
S. Kitajima1), H. Nakao1), A. Shirakawa1), H.Yagi2),
T. Yanagitani2)
1)Inst. for Laser Sci., Univ. of Electro-Comm.,
Japan, 2)Takuma Works, Konoshima Chemical Co.,
Ltd., Japan
Pulse Stretching in a Cryogenic-Yb:YAG
Regenerative Amplifier Using Transmission
Gratings
S. Tokita1), S.I. Hwang1), T. Kawashima2), H.
Nishioka3), J. Kawanaka1)
1)ILE Osaka Univ., Japan, 2)Hamamatsu Photonics
K.K., Japan, 3)UEC Tokyo, Japan
Generation of 1.5 mJ Few-Cycle Infrared Pulses
in a BiB3O6 Optical Parametric Chirped-Pulse
Amplifier
N. Ishii1), K. Kaneshima1), T. Kanai1), S.
Watanabe2), J. Itatani1)
1)The Inst. for Solid State Physics, Univ. of Tokyo,
2)Res. Inst. for Sci. and Tech., Tokyo Univ. of Sci.
Looking into Sub-Cycle Dynamics of Electron
Rescattering Induced by Intense Infrared
Few-Cycle Pulses
H. Geiseler1), N. Ishii1), K. Kaneshima1), F. Geier1),
T. Kanai1), J. Itatani1)
1)The Inst. for Solid State Phys., Univ. of Tokyo,
Japan
ALPS11-2
9:30
ALPS10-3
9:45
ALPS10-4
10:00
ALPS10-5
10:15
ALPS11 : Biomedical-Photonics
ALPS11-3
9:45
ALPS11-4
10:00
ALPS11-5
10:15
(Invited)
Stimulated
Raman
Scattering
Microscopy for Label-Free Imaging and
Spectroscopy
Y. Ozeki
Univ. Tokyo, Japan
All-optical Ultrafast Burst Imaging using
Broadband Frequency Chirped Pulse
T. Suzuki, F. Isa, L. Fujii, K. Hirosawa, F. Kannari
Keio Univ., Japan
Supercontinuum Generation for Ultrahigh
Resolution Optical Coherence Tomography at
0.8 m from Ultrashort Pulse Fiber Laser
Y. Nomura1), H. Kawagoe1), Y. Hattori1), M.
Yamanaka1), Y. Sakakibara2), E. Omoda2), H.
Kataura2), and N. Nishizawa1)
1)Nagoya Univ., Japan, 2)AIST, Japan
Development of 3D Forearm Vein Imaging
System Using Light-section Method for
Automatic Blood Sampling
R. Kimura, Y. Morita, E. Nakamachi
Doshisha Univ., Japan
Reflectance Response of Tapered Multimode
Fiber Coated With Polyaniline for Ammonia
Sensing
A. Shabaneh, S. Girei, F. Mohamad, A. Ibrahim,
A. Lateef, N. A. Rahman, M. A. Mahdi, S. Paiman,
M. H. Yaacob
Univ. Putra, Malaysia
----- Break (10:30-11:00)----Room 302
ALPS12 : Intense Ultrafast Sources and
Applications (cont’d)
Chair: J. Itatani, Program Committee Member
Univ. of Tokyo, Japan
11:00-12:30
ALPS12-1
11:00
(Invited)
Progress
Towards
a
10PW
Ultraintense Laser Facility: Demonstration of
5PW High Gain Large Aperture Ti:Sapphire
Amplifier
R. Li, X. Liang, Y. Leng, and Z. Xu
SIOM, CAS, China
Room 311+312
11:00-12:30
Chair: A. Fujisaki, Program Committee Member
Furukawa Electric Co., LTD, Japan
ALPS13-1
11:00
ALPS13-2
11:15
14
ALPS13 : Fiber Lasers
Development of Yb-doped Fiber Amplifier with
Adjustable Repetition Rate for Optimized
Seeding of Regenerative Amplifiers
J. Linnemann1), M. Smrz1), T. Miura1), U.
Teubner2), A. Endo1), T. Mocek1)
1)HiLASE Centre, Institute of Physics ASCR,
v.v.i., Czech, 2)HS-Emden-Leer, Germany
Sub-10ps, 700 kW Peak-Power Pulses from a
Non-Linearly Compressed All-Fiber MOPA
System
R. Yamashita1), K. Maeda1), G. Watanabe1), K.
Tei1), S. Yamaguchi1), J. Enokidani2), S. Sumida2)
1)Dept of Phys., Tokai Univ., Japan, 2)OPT-i
ALPS12-2
11:30
Development update of the PENELOPE Laser
System
D. Albach1), M. Siebold1), M. Loeser1,2), F. Roeser1)
and U. Schramm1,2)
1)Helmholtz-Zentrum
Dresden-Rossendorf,
Germany, 2)Tech. Univ. Dresden, Germany
ALPS13-3
11:30
ALPS12-3
11:45
All Four Beams, Pico-Second Operation of
LFEX-Laser
J. Kawanaka, N. Morio, S. Matsuo, K. Kawabata,
Y. Kawakami, T. Hirano, Y. Fujimura, K. Sawai, K.
Tsuji, Y. Suzuki, Y. Matsuda, T. Kawasaki, H.
Murakami, K. Ueda, M. Ishida, S. Kitamura, H.
Matsuo, T. Sakamoto, T. Sezaki, T. Yanagida, S.
Tokita, Y. Nakata, K. Tsubakimoto, H. Shiraga, T.
Jitsuno, and N. Miyanaga
Inst. of Laser Eng., Osaka Univ., Japan
The Development of Ozone Grating for High
Intensity Lasers
Y. Michine, H. Yoneda
Inst. for Laser Sci., Univ. Electro-Comm., Japan
ALPS13-4
11:45
Intense and Tunable High-order Harmonics
from Carbon Plasma
T. Ozaki, A. Fareed, S. Mondal and Y. Pertot
INRS-EMT, Canada
ALPS13-6
12:15
ALPS12-4
12:00
ALPS12-5
12:15
ALPS13-5
12:00
12:30
Co.,Ltd., Japan
Improvement
of
Output
Power
and
Suppression of Pedestal Components for
Wideband
Wavelength-Tunable
Narrow-Linewidth Source
Y. Ando1), Y. Sakakibara2), E. Omoda2), H.
Kataura2), and N. Nishizawa1)
1)Nagoya Univ., Japan, 2)AIST, Japan
Yb:Fiber Comb Based on a Tapered
Single-mode Fiber
Y. Xie, H. Han, L. Zhang, L. Hou, Z. Yu, Z. Zhu,
L. Pang, W. Liu, Z. Wei
Beijing National Lab. for Condensed Matter Phys.,
Inst. of Phys., CAS, China
School of Phys. and Optoelectronic Eng., Xidian
Univ., China
Impact of Different Order Photonic Bandgap in
Spectral Filtering Photonic Bandgap Fiber
Amplifier
M. Chen1), S. R. Petersen2), C. B. Olausson3), T. T.
Alkeskjold3), A. Shirakawa1)
1)Inst. for Laser Sci., Univ. of Electro-Comm.,
Japan, 2)Dept. of Photonics Eng., Tech. Univ. of
Denmark, Denmark, 3)NKT Photonics A/S,
Denmark
Development
of
Low
Photo-Darkening
Yb-Doped Silica Glass Fiber by Co-Doping of
Group 2 Element
Y. Sakaguchi1), Y. Fujimoto1), M. Masuda1), N.
Miyanaga1), H. Nakano2)
1)Osaka Univ., Japan, 2)Kinki Univ., Japan
Closing
Room 311+312
----- Lunch Break & Poster Session (12:30-15:00)-----
Exhibition Hall C
13:00-15:00
ALPSp14-01
ALPSp14-02
ALPSp14-03
ALPSp14-04
ALPSp14-05
ALPSp14-06
ALPSp14: Poster Session
Fabry-Pérot-Like Interferences in Symmetric Thue-Morse Multilayer
C. W. Tsao, Y. H. Cheng, C. H. Chang, W. J. Hsueh
Photonic group, Dept. of Eng. Sci. and Ocean Eng., National Taiwan Univ., Taiwan
Carrier-Induced Fast All-Optical Switching in a Photonic Crystal Nanocavity Fabricated with a CMOS
Compatible Process
Y. Ooka, T. Tetsumoto, A. Fushimi, W.Yoshiki and T. Tanabe
Keio Univ., Japan
Size Dependence of Thermo-opto-mechanical Oscillation Observed in Crystalline Whispering Gallery Mode
Microcavity Fabricated with Ultra-precision Machining
H. Itobe1), Y. Nakagawa1), S. Azami1), Y. Kakinuma1), T. Tanabe1)
Keio Univ., Japan
Shack-Hartmann Wavefront Sensor for Multiaxial Actuation Measurement - Optical Devices and Techniques
for Bio and Medical Applications
K.-Y. Huang1), C.-M. Chia1), E. Chang2), C.-W. Chang1)
1)National Taiwan Univ., Taiwan, 2)Genius Electronic Optical Co., Taiwan
Dependence of Temperature on Fluorescence Lifetime of Nd Ion for Ce/Cr/Nd:YAG Ceramic
T. Nakamachi1), T. Saiki1), T. Hayashi1), K. Fujioka2), H. Furuse3), Y. Honda2), S. Motokoshi4), Y. Fujimoto2), M.
Nakatsuka2,4), Yukio Iida1)
1)Kansai Univ., Japan, 2)Inst. of Laser Eng., Osaka Univ., Japan, 3)Kitami Inst. of Tech., Japan, 4)Inst. for Laser Tech.,
Japan
Generation of Octave-Spanning Optical Kerr Frequency Comb in a Dispersion-Managed Whispering Gallery
Mode Microcavity
15
ALPSp14-07
ALPSp14-08
ALPSp14-09
ALPSp14-10
ALPSp14-11
ALPSp14-12
ALPSp14-13
ALPSp14-14
ALPSp14-15
ALPSp14-16
ALPSp14-17
ALPSp14-18
ALPSp14-19
ALPSp14-20
ALPSp14-21
ALPSp14-22
ALPSp14-23
ALPSp14-24
Y. Nakagawa1), T. Kato1), T. Tanabe1)
1)Keio Univ., Japan
Efficient Diode-Pumped High Power Femtosecond Yb:LYSO Laser
W. Tian, Z. Wang, Z. Wei, J. Zhu, L. Zheng, J. Xu
1)Inst. of Phys., CAS, 2)Xidian Univ., 3)Shanghai Inst. of Ceramics, CAS, China
Characteristics on Phase Synchronization of Second Harmonic Wave Array from Intra Talbot Cavity
Frequency Doubling
K. Hirosawa1), F. Shohda2), T. Yanagisawa2), F. Kannari1)
1)Keio Univ., Japan, 2)Mitsubishi Electric Co., Japan
Power Scaling and Q-switched Operation of a Pr3+:YLF Laser Pumped by Four InGaN-Blue-Laser-Diodes
K. Iijima1), R. Kariyama1), H. Tanaka1), K. Hirosawa1), F. Kannari1)
Keio Univ., Japan
Passively CW Mode-Locked Red Pr:YLF Laser Pumped by InGaN Laser Diodes
R. Kariyama, H. Tanaka, K. Iijima, K. Hirosawa, F. Kannari
Keio Univ., Japan
Rate Equation Analysis of a Passively Q-switched Pr4+:YLF Laser with a Cr3+:YAG Saturable Absorber in
Visible Region
H. Tanaka, R. Kariyama, K. Iijima, K. Hirosawa, F. Kannari
Dept. of Electronics and Electrical Eng., Keio Univ., Japan
Multiple Frequency Injection Locked Ti:Sapphire Laser with a Variable Two Frequency Separation and
Power
G. Trivikramarao, Y. Fujimura, R. Yoshizaki, T. Kawashima, T. Ohashi, Y. Sasaki, H. Hamano, K. Yoshii, M.
Katsuragawa
Univ. of Electro-Comm., Japan
Coherent Combination of Four High-Power Laser Beams Using Bernoulli Discrete Probability Distribution
Based Algorithm
T. Kitamura1), H. Chosrowjan1,3), S.Taniguchi1,3), M. Fujita1,2,3), K. Tsubakimoto2), H. Yoshida2), N. Miyanaga2), Y.
Izawa1)
1)Inst. for Laser Tech., Japan, 2)Inst. of Laser Eng., Osaka Univ., Japan, 3)ALPROT, Japan
Development on Thermoelectric Transducer Using Laser-Sintered Reduced Metal Nanopastes
Y. Li, T. Saiki, Y. Iida
Kansai Univ., Japan
Singe- and Two-Color Laser Generation from Etalon-Coupled C-Cut Nd:YVO4 Laser
Y.-C. Chiu1), B.-C. Wang2), Y.-C. Huang3)
Inst. of Photonics Tech., National Tsinghua Univ., China
Generation of Gaussian Monocycle and Doublet Pulses from Vector Soliton Shaping in an Erbium-Doped
Fiber Laser
Y.-C. Leu, W.-H. Kuan, J.-Y. Wang, and K.-H. Lin
Dept. of Appl. Phys. and Chemistry, Univ. of Taipei, Taiwan
Enhancing Pressure Response of a Fabry-Pérot Interferometer with a Microchannel Fabricated by
Femtosecond Laser
Y. Yu1,2), X. Chen1,2), Q. Huang1,2), C. Du1,2), S. Ruan1,2) and H. Wei3)
1)Shenzhen Key Lab. of Laser Eng., China, 2)Shenzhen Univ., China, 3)Huazhong Univ. of Sci. and Tech., China
Optical Material Modification by Laser Pulses at Under-Damage Threshold Conditions
K. Mikami1), S. Motokoshi2), T. Jitsuno1)
1)ILE, Osaka Univ., Japan, 2)Inst. for Laser Tech., Japan
Thermal Damage of Organic Thin Film by Femtosecond Laser Process
Y. Makino1), S. Ono1), V. Srinivasan1), N. Tsuda1), J. Yamada1), P.-K. Shin2), S. Ochiai1)
1)Aichi Inst. of Tech., Japan, 2)Inha Univ., Korea
Direct Writing of Laser Waveguides in Pr:ZBLAN Glass using Ultrafast Laser Pulses
Y. Yamanaka, K. Hirosawa, T. Sato, and F. Kannari
Keio University, Japan
High-Harmonic Generation by Non-collinear Wave Mixing in Ionized Media
T. Kuroda, K. Sato, H. Ohno, K. Suzuki, and A. Suda
Tokyo Univ. of Sci., Japan
Interspace of Periodic Grating Structure Dependence on Laser Fluence for Double Pulse Irradiation
M. Hashida1,2), L. Gemini3,4), T. Nishii1,2), Y. Miyasaka1,2), H. Sakagami5), S. Inoue1,2), J. Limpouch3), T. Mocek4), and
S. Sakabe1,2)
1) Inst. for Chemical Res., Kyoto Univ., Japan, 2)Dept of Phys., Kyoto Univ., Japan, 3)FNSPE, Czech Tech. Univ.,
Czech, 4)HiLASE Project, Inst. of Phys., Czech, 5)National Inst. for Fusion Sci., Japan
Study on Effect of Intense THz-Wave Irradiation for Protein Conformation
T. Notake, K. Nawata, Y. Takida, Y. Tokizane, Z. Han, and H. Minamide
RIKEN RAP, Japan
Plume Expansion and Optical Emission Spectrum of Nd:YAG Laser Produced Sn Plasma
16
ALPSp14-25
ALPSp14-26
ALPSp14-27
ALPSp14-28
ALPSp14-29
ALPSp14-30
ALPSp14-31
ALPSp14-32
ALPSp14-33
ALPSp14-34
ALPSp14-35
ALPSp14-36
ALPSp14-37
ALPSp14-38
ALPSp14-39
ALPSp14-40
ALPSp14-41
H. Lan, X. Wang, D. Zuo, P. Lu
Wuhan National Lab. for Optoelectronics, Huazhong Univ. of Sci. and Tech., China
Evaluation of Impulse Direction and Mass Loss by a Pulse Laser Irradiation for Laser Ablated Propulsion
S. Nakayama1)2)3), Y. Mori1), K. Fujita1), Y. Kitagawa1)
1)The Graduate School for the Creation of New Photonics Industries, Japan, 2)STARSHIP LASER DRIVE LLC.
3)IHI Corporation, Japan
High Power UV Laser Processing of CFRP with Various ns Pulse Waveforms
M. Fujita1,4), H. Ohkawa2), T. Somekawa1), T. Matsutani2), Y. Maeda2), J. Bovatsek3), R. Patel3), N. Miyanaga4)
1)Inst. for Laser Tech., Japan, 2)Kinki Univ., Japan,
3)Spectra-Physics, Newport Company, USA, 4)Inst. of Laser
Eng., Osaka Univ., Japan
Development of Feedback Algorithm for Filled Aperture Coherent Beam Combining Technique with Phase
Control
K. Tsubakimoto, T. Kinugasa, Y. Iwami, H. Yoshida, H. Fujita, N.Miyanaga
Inst.of Laser Eng., Osaka Univ., Japan
All-Fiber 41-fs Pulse Generation from a Self-Similar Erbium Fiber Amplifier
D. Yoshitomi, K. Torizuka
National Inst. of Advanced Industrial Sci. and Tech., Japan
Control of High Energy Sub-ps Pulses from Yb-Doped Fiber Laser Using Hollow-Core Photonic Bandgap
Fiber
N. Otsuka and N. Nishizawa
Nagoya Univ., Japan
Development of Multi-Color Visible Short Pulse Glass Fiber Laser Using Graphene Thin Film
S. Kajikawa1,2), Y. Fujimoto1), M. Yoshida2), O. Ishii3), M. Yamazaki4)
1)Inst. for Laser Eng., Osaka Univ., Japan, 2)Kinki Univ., Japan, 3) Optical Glass Production Dept., Sumita Optical
Glass, Japan, 4) R&D Dept, Sumita Optical Glass, Japan
Numerical Study of Hybrid Mode-Locked Fiber Lasers with Full-Vector Model
L. Jin, N. Nishizawa
Nagoya Univ.
Er-Doped Hybrid Mode-Locked Fiber Laser Using Combination of Nonlinear Polarization Rotation and
Carbon Nanotube
K. Nonobe1), L. Jin1), Y. Sakakibara2), E. Omoda2), H. Kataura2), and N. Nishizawa1)
1)Dept. Quantum Eng., Nagoya Univ., Japan, 2)National Inst. of Advanced Industrial Sci. and Tech. (AIST), Japan
Demonstration of Coherence-Selectable Operation of External-Cavity Semiconductor Laser
M. Hyodo1), A. Kawakami2), S. Saito2), M. Watanabe3), Y. Tamura1) and M. Adachi1)
1) Kanazawa Univ., Japan, 2)Advanced ICT Res. Inst., National Inst. of Information and Comm. Tech., Japan, 3)Dept.
of Eng. Sci., Univ. of Electro-Comm., Japan
Study on Self-Coupling Sensor Using Terminal Voltage Change
T. Yoshimatsu, N. Tsuda, J. Yamada
Aichi Inst. of Tech., Japan
Photon-Stimulated Desorption Surface Spectroscopy System by Using a Laser-Produced Argon Plasma
M. Kaku1), D. Kai1), M. Katto2), A. Yokotani1), W. Sasaki3), S. Kubodera1)
1)Dept. of Electrical and Electronic Eng. and Photon Sci. Center, Univ. Miyazaki, Japan, 2)Cooperative Res. Center,
Univ. of Miyazaki, Japan, 3)NTP Inc., Japan
Ablation Mechanism and Some Ideas of Applications of Modified Surface Structures Induced by Picosecond
Soft X-Ray Laser
M. Ishino1), N. Hasegawa1), M. Nishikino1), M. Maruyama1), A. Faenov2,3), S. Tamotsu4), T. Pikuz2,3), N. Inogamov2),
I. Skobelev2,5), T. Kawachi1), M. Yamagiwa1)
1)JAEA, Japan, 2)RAS, Russia, 3)Osaka Univ., Japan, 4)Nara Women’s Univ., Japan, 5)National Res. Nuclear Univ.,
Russia
Continuous Generation of Laser Plasma X-Ray Using Solid Rare Gas Targets
S. Amano
Univ. of Hyogo, Japan
High Intensity Ultrashort VUV Pulse Generation with OFI Ar2* Amplifier
M. Kaku1), N. Deshimaru1), M. Katto2), S. Kubodera1)
1)Dept. of Electrical and Electronic Eng. and Photon Sci. Center, Univ. Miyazaki, Japan, 2)Cooperative Res. Center,
Univ. Miyazaki, Japan
Development of Nanosecond Pulse CO2 Laser for Efficient Extreme Ultraviolet Generation
R. Amano1), T. H. Dinh1), A. Sasanuma1), G.Arai1), Y. Fujii1), A. Takahashi2), D. Nakamura2), T. Okada2), T. Miura3),
A. Endo3), T. Mocek3), and T. Higashiguchi1)
1)Utsunomiya Univ., Japan, 2)Kyushu Univ., Japan, 3)HiLASE Center, Czech
Temporal Profile Measurement of Plasma X-Ray Laser Pulses by using a Pump-Probe Laser Spectroscopy
S. Namba1), N. Hasegawa2), M. Kishimoto2), M. Nishikino2) and T. Kawachi2)
1)Hiroshima Univ., Japan, 2)JAEA, Japan
Remote Sensing Based on Lasing Action Induced by Femtosecond Laser Filamentation
17
ALPSp14-42
ALPSp14-43
ALPSp14-44
ALPSp14-45
ALPSp14-46
ALPSp14-47
ALPSp14-48
ALPSp14-49
ALPSp14-50
ALPSp14-51
ALPSp14-52
ALPSp14-53
ALPSp14-54
ALPSp14-55
ALPSp14-56
ALPSp14-57
ALPSp14-58
W. Chu1), J. Ni1), J. Yao1), B. Zeng1), G. Li1), C. Jing1), H. Xu2),Y. Cheng1)
1)State Key Lab. of High Field Laser Phys., SIOM, CAS, China, 2)College of Electronic Science and Eng., Jilin
Univ., Japan
Simultaneously Q-switched and Mode-Locked Eye-Safe Self-Raman Laser at 1525 nm
D. Wang1),C. Du1),Y. Zhang1),S. Ruan1),X. Xie2)
1)Shenzhen Univ., China, 2)Han's Laser Tech. Industry Group Co., Ltd., China
Second Harmonic Generation in Isotropic Gaseous Medium Using Spatiotemporally Focused Femtosecond
Laser Pulses
G. Li1), J. Ni1), H. Xie1), B. Zeng1), J. Yao1), W. Chu1), H. Xu2), Y.Cheng1), Z. Xu1)
1)SIOM, CAS, China, 2)Jilin Univ., China
Compact Low Loss Design of SOI 1x2 Y-Branch Optical Power Splitter with s-Bend Waveguide and Study on
the Variation of Transmitted Power with Various Waveguide Parameters
C. P. Vardhani, N. R. Pendam
Osmania Univ., India
Improvement of THz-Wave Parametric Source with a Broad Tunable Range
K. Murate1), K. Imayama1), S. Hayashi2), K. Kawase1,2)
1)Nagoya University, Japan, 2)RIKEN, Japan
Control of Nonlinear Emission at a Gold Tapered Tip Excited by Ultrafast Surface Plasmon Pulses
Y. Masaki, K. Toma, K. Hirosawa, F. Kannari
Keio Univ., Japan
Experimental Verification of Terahertz-Wave Spectroscopic Measurement Based on Nonlinear
Wavelength-Conversion
S. Hayashi1), K. Nawata1), K. Kawase1,2) and H. Minamide1)
1)RIKEN Center for Advanced Photonics, Japan, 2)Nagoya Univ., Japan
Time-Domain Measurement and Noise Analysis of a Kerr Comb from a Toroid Microcavity
Y. Okabe, R. Suzuki, Z. Chen, T. Nagano, T. Kobatake, and T.Tanabe
Keio Univ., Japan
Influence of Raman Scattering on a Kerr Frequency Comb Generated in a Silica Toroidal Microcavity
T. Kobatake, T. Kato and T. Tanabe
Keio Univ., Japan
Enhanced Heat Removal in High Power SHG Module
M. Nonaka1,2), W. Nagashima1,2), H. H. Lim1), S. Kurimura1), I. Shoji2)
1)NIMS, Japan, 2)Chuo Univ., Japan
Photon-Number Squeezed Pulse Generation with a Symmetric Fiber Interferometer
A. Hosaka, K. Hirosawa, R. Sawada, and F. Kannari
Keio Univ., Japan
Precise Deuteration Control of KDP Crystal and Application to Ultra-broadband Optical Parametric
Amplification
K. Fujioka1,2), Y. Fujimoto1), K. Tsubakimoto1), J. Kawanaka1), I. Shoji3), and N. Miyanaga1)
1)Inst. of Laser Eng., Osaka Univ., Japan, 2)Promotion Center for Laser Tech., 3) Chuo Univ., Japan
Stimulated Brillouin Scattering Pulse Compression and its Application to Optical Parametric Chirped-Pulse
Amplifier
J. Ogino1), S. Miyamoto1), T. Matsuyama1), K. Sueda2), H. Yoshida1), K. Tsubakimoto1) and N. Miyanaga1)
1)Inst. of Laser Eng., Osaka Univ., Japan 2)Photon Pioneers Center, Osaka Univ., Japan
Effective Photon Conversion from THz to NIR in a Slant-Stripe-Type Periodically Poled LiNbO3
K. Nawata1), T. Notake1), H. Ishizuki2), Y. Takida1), Y. Tokizane1), S. Hayashi1), T. Taira2), and H. Minamide1)
1)RIKEN, Japan, 2)Inst. for Molecular Sci., Japan
Sub-THz Wave Generation in DAST-DFG Configuration Pumped by a Dual-Wavelength, Injection-Seeded
BBO OPG System
Y. Tokizane1), Y. Miyake1,2), K. Nawata1), S. Fan1), S. Hayashi1), T. Notake1), A. Sato2), Y. Takida1) and H. Minamide1)
1)RIKEN, Japan, 2)Tohoku Inst. of Tech., Japan
High-efficiency MLD-THz-TDS with Using a Chaotic Oscillation and Metal V Groove Waveguide
Y. Akamine1), K. Iwao1), M. Oi1), T. Kishibata1), T. Shirao1), F. Kuwashima1), M. Tani2), K. Kurihara3), K.
Yamamoto2), K. Nagashima4), M.Hangyo5)
1)Fukui Univ. of Tech., Japan, 2) Res. Center for Development of Far-Infrared Region, Japan, 3)Univ. of Fukui, Japan,
4)Setsunan Univ., Japan, 5)Inst. of Laser Eng., Osaka Univ., Japan
Subwavelength and Femtosecond Scale Control of Ultrafast Localized Plasmon Pulses at Metallic
Nanostructures by Light Wave Shaping
Y. Kojima, Y. Masaki, K. Toma, K. Hirosawa, and F. Kannari
Keio Univ., Japan
Hybrid-lens for Terahertz Subwavelength Focusing beyond the Diffraction Limit
P. Tapsanit1,2), M. Yamashita2), C. Otani1,2)
1)Tohoku
Univ., 2)RIKEN Center for Adv. Photonics
18
ALPSp14-59
ALPSp14-60
ALPSp14-61
ALPSp14-62
ALPSp14-63
Magneto-Optical Integrated Circuits by Femtosecond Laser Modelling in YIG
T. Amemiya1,2), Z. Gu3), A. Ishikawa2,4), Y. Shoji3), P. N. Hai5), M. Tanaka6), T. Mizumoto3), T. Tanaka2,7), Shigehisa
Arai1,3)
1)Quantum Nanoelectronics Res. Center, Tokyo Inst. of Tech., Japan, 2)Metamaterials Lab., RIKEN, Japan, 3)Dept.
of Electrical and Electronic Eng., Tokyo Inst. of Tech., Japan, 4)Dept. of Electrical and Electronic Eng., Okayama
Univ., Japan, 5)Dept of Phys. Electronics, Tokyo Inst. of Tech., Japan, 6)Dept. of Electrical Eng. and Information
Systems, Univ. of Tokyo, Japan, 7)Res. Inst. for Electronic Sci., Hokkaido Univ., Japan
Shack-Hartmann Wavefront Sensor for Nebulization Concentration Measurement
K.-Y. Huang1), C.-M. Chia1), E. Chang2), Y. M. Chen1)
1)National Taiwan Univ.
2)Genius Electronic Optical Co.
Double Assurance of Epidural Space Detection Using Fiber Optic and Fluorescent Technologies
Y. Chang1), T.-A. Chiang2)
1)National Yang-Ming University, Taiwan, 2)EDA Medical Devices Tech. Inc., Taiwan
Observing Triplet State Dynamics of Fluorescent Proteins by Modulated Excitation
N. Kamiyama, Y. Sunairi, K. Toda, H. Takahashi, A. Suda
Tokyo Univ. of Sci., Japan
Wavelength Dependence of Optical Coherence Tomography Imaging Using Supercontinuum Source in
Wavelengths of 0.8-1.9 μm
H. Kawagoe, M. Yamanaka, and N. Nishizawa
Nagoya Univ., Japan
Room 302
15:30-16:45 ALPS15 : Fiber Lasers and Diode Lasers
Chair: A. Shirakawa, Program Committee Member
Univ. of Electro-Comm., Japan
ALPS15-1
15:30
ALPS15-2
16:00
ALPS15-3
16:15
ALPS15-4
16:30
(Invited) Challenges and Opportunities for
Mid-Infrared Fibre Sources
S. D. Jackson
MQ Photonics, Dept of Eng., Macquarie Univ.,
Australia
Development
of
High-Power
and
High-Efficiency 9xx nm Laser Diodes
T. Uchiyama, K. Torii, N. Kageyama, T. Nagakura,
K. Endo, T. Morita, J. Maeda, H. Yoshida
Hamamatsu Photonics K. K., Japan
Nanosecond
Pulsed
1.5
kW
Average-Output-Power Fiber Laser System
Based on Yb-doped Rod PCFs for
Filled-aperture
Coherent
and
Spectral
Combinations
H. Yoshida1), K. Tsubakimoto1), H. Fujita1), N.
Miyanaga1),T. Yamamura2,5), T. Sakagawa2,5),M.
Tsukamoto3), H. Chosrowjan4,5), T. Kitamura4,5), M.
Fujita4,5), Y. Izawa4,5)
1)ILE OSAKA Univ., Japan, 2)KATAOKA Corp.,
Japan, 3)JWRI Osaka Univ., Japan, 4)ILT, Japan,
5)ALPROT, Japan
CFRP Cutting with High Power Fiber Laser
T. Miyato1,4), A. Fujisaki1,4), K. Furukawa2,4), M.
Matsushita2,4), Y. Harada3,4), H. Niino3,4)
1)Furukawa Electric Co., Ltd., Japan, 2)Shin
Nippon Koki Co., Ltd., Japan, 3)AIST, Japan,
4)ALPROT, Japan
16:45
Closing
16:45-16:55
Award Ceremony
Room 302
N. Nishizawa, Program Committee Chair
Nagoya Univ., Japan
Closing Remarks
Room 302
H. Nishioka, Steering Committee Chair
Univ. of Electro-Comm., Japan
16:55-17:00
Room 302
19
5th Asian and Pacific-Rim Symposium
on Biophotonics
APBP’15
APBP1-3
10:00
Wednesday, April 22
15:30-16:00
Opening
Room 414+415
Opening Remarks
13:45
T. Omatsu, Conference Chair of OMC’15
Chiba Univ., Japan
16:00-18:00 OMC & APBP Joint Session
Room 414+415
Chair: H. Ishihara, Osaka Pref. Univ., Japan
E. Okada, Keio Univ., Japan
OMC&APBP-1 (Invited) Highly-focused light for optical
13:45
trapping
H. Rubinsztein-Dunlop
Univ. of Queensland, Australia
OMC&APBP-2 (Invited) Optical tweezers for investigation
14:15
of mechanical property of a cell
T. Sugiura
Nara Institute of Science and Technology,
Japan
3)
1)
APBP1-4
10:15
APBP1-5
10:30
APBP1-6
10:45
----- Break (14:45-15:15)----(Invited) Combined optical and acoustic
trapping
M. Ritsch-Marte
Innsbruck Medical Univ., Austria
OMC&APBP-4 (Invited) Molecular mechanism of efficient
15:45
muscle contraction revealed by single
molecule approaches
M. Kaya, T. Washio, T. Hisada, H. Higuchi
Univ. of Tokyo, Japan
16:15-16:20
Closing
Room 414+415
Closing Remarks
16:15
T. Iwai, Conference Chair of APBP'15
Tokyo Univ. of Agri. & Tech., Japan
OMC&APBP-3
15:15
Thursday, April 23
9:00-9:10
Opening
Room 303
Opening Remarks
9:10
T. Iwai, Conference Chair of APBP'15
Tokyo Univ. of Agri. & Tech., Japan
9:15-11:00 APBP1: Optical Coherence Imaging
Room 303
Chairs: M. Ohmi, Program Committee co-Chair,
Osaka Univ., Japan
Y. Yasuno, Program Committee co-Chair,
Univ. of Tsukuba, Japan
APBP1-1
(Invited) Optical coherence tomography
9:15
based on resonant absorption and
scattering of localized surface plasmon on
Au nanorings
C.-K. Yu, T.-T. Chi, Y.-C. Tu, S.-Y. Chen, M.J. Li, C.-K. Chu, Y.-W. Kiang, C.C. Yang
Natl Taiwan Univ., Taiwan
APBP1-2
Ultra-high
resolution
polarization9:45
sensitive optical coherence tomography for
retinal blood vessel wall measurements
B. Cense 1), I. Ibrahim 1), P. Mondal 1), M.
Miura 2), E. G. Ruiz 3)
1) Utsunomiya Univ., Japan, 2) Tokyo Med.
Univ., Japan, 3) National Instruments Corp.,
20
Japan
Optical coherence tomography guided
laser incision of cornea and lens
T. J. Eom 1), B. Lee 1), B.-M. Kim 2), C. K. Joo
GIST, Korea, 2) Korea Univ., Korea, 3)
Seoul St. Mary’s Hosp., Korea
Longitudinal spatial coherence gated highresolution full-field optical tomography
and topography using laser light source
D. S. Mehta 1), S. Nandy 2), V. Srivastava 3),
A. Ahmed 1)
1) Indian Inst. of Tech., India, 2) Univ. of
Connecticut, USA, 3) Amity Uviv., India
Spectral domain optical coherence
tomography using a single spectrometer
and time delay in balance detection
B.-M. Kim 1), T. J. Eom 2), M. G. Hyeon 1), H.J. Kim 1)
1) Korea Univ., Korea, 2) GIST, Korea
Clinical validation of optical coherence
tomography derived Index of plaque
attenuation
M. Gnanadesigan 1), T. Kameyama 2), A. van
der Steen 1), A. Karanasos 1), N. Dietzhuijzen
1), K. Witberg 1), J. M. Lighthart 1), E. Regar 1),
G. van Soest 1)
1) Erasmus MC, Netherlands, 2) Tohoku Univ.,
Japan
----- Break (11:00-11:15)-----
11:15-12:15
APBP2: Poster Flash Presentation -1
Room 303
Chairs: K. Saito, Program Committee Member,
Tokyo Med. & Dent. Univ., Japan
Y. Ozeki, Program Committee Member,
Univ. of Tokyo, Japan
APBPp2-1
Phase-contrast optical microscopy for
biological tissues using oblique laser
illumination
Y. Miyake, M. Hisaka, T. Ikuta
Osaka Electro-Commu. Univ., Japan
APBPp2-2
A software utility for tracking FUCCIlabeled gastric cancer cells with
multicontrast time-lapse images
H. Kawaguchi 1), Y. Maeyama 1),2), S. Kikuchi
3), M. Otsu 2), H. Ito 1)
1) Natl Inst. of Radiol. Sci., Japan, 2) Univ. of
Tokyo, Japan, 3) Hyogo Coll. of Med., Japan
APBPp2-3
Proposal of Raman Fourier-spectroscopic
tomography for iPS solid organs in the field
of regenerative medicine
S. Ogawa, M. Fujiwara, P. K. W.
Abeygunawardhana, S. Sato, S. Suzuki, A.
Nishiyama, K. Wada, I. Ishimaru
Kagawa Univ., Japan
APBPp2-4
Design of implantable probe for
simultaneous measurement of NIRS,
ECoG and thermometry
S. Esaki 1), T. Yamakawa 2), M Niwayama 1)
1) Shizuoka Univ., Japan, 2) Kumamoto Univ.,
Japan
APBPp2-5
Full field OCT using short multimode fiber
APBPp2-6
APBPp2-7
APBPp2-8
APBPp2-9
APBPp2-10
APBPp2-11
APBPp2-12
APBPp2-13
APBPp2-14
APBPp2-15
APBPp2-16
probe
M. Sato 1), Y. Sekine 1), T. Takahashi 1), I.
Nishidate 2)
1) Yamagata Univ., Japan, 2) Tokyo Univ. of
Agri. & Tech., Japan
Stability
in
phase
and
intensity
measurement using quasi single shot wide
field optical coherence tomography
T. Anna 1), S. Kimura 1), D. S. Mehta 2), M.
Sato 1)
1) Yamagata Univ., Japan, 2) Indian Inst. of
Tech., India
High-speed en face optical coherence
tomography using KTN optical beam
deflector
M. Ohmi 1), A. Fukuda 1), Y. Shinya 1), J.
Miyazu 2), M. Ueno 2), S. Toyoda 2), J.
Kobayashi 2)
1) Osaka Univ., Japan, 2) NTT Corp., Japan
In vivo retinal imaging with variable
lateral resolution using optically deviated
focusing based high-resolution optical
coherence tomography
R. E. Henry Wijeisnghe, K. Park, J. Kim
Kyungpook Natl Univ., Korea
Influence of spatial coherence on visibleLED OCT imaging
D. Kaneko, T. Iwai
Tokyo Univ. of Agri. & Tech., Japan
All single mode fiber optics spectral
domain polarization sensitive optical
coherence tomography
J.-P. Xu, W.-C. Kuo
Natl Yang-Ming Univ., Taiwan
Characterization of the responses of
cerebral vasculature due to electrical
stimulation using OCT
B.-H. Lin, L. Yang, M.-Y. Chiang, Y.-Y. Chen,
W.-C. Kuo
Natl Yang-Ming Univ., Taiwan
Photoacoustic imaging system with ultrathin hollow optical fibers
A. Seki 1), K. Iwai 2), Y. Matsuura 1)
1) Tohoku Univ., Japan, 2) Sendai Natl Coll. of
Tech., Japan
Photo-acoustic analysis of dental pulp
using near infrared laser light
A. Yamada 1), S. Kakino 2), Y. Matsuura 1)
1) Tohoku Univ., Japan, 2) Tokyo Med. & Dent.
Univ., Japan
Fundamental study on control of motion of
nanoparticles using scattering field of laser
light
N. Yokoi 1), Y. Aizu 2)
1) Asahikawa Natl Coll. of Tech., Japan,
2) Muroran Inst. of Tech., Japan
Dynamic observation of blood coagulation
process in digital holographic microscopy
H. Funamizu, Y. Watanabe, T. Kumagai, Y.
Aizu
Muroran Inst. of Tech., Japan
Diffusing topographic imaging of melanin
layers distributed in a phantom
Y. Yokoyama, T. Iwai
21
Tokyo Univ. of Agri. & Tech., Japan
Optical imaging of simulated blood vessel
dynamics by laser scanning topography
N. Shinonaga, T. Iwai
Tokyo Univ. of Agri. & Tech., Japan
APBPp2-18
Combined probe for optically assisted
ultrasonic velocity-change imaging aimed
at detection of unstable blood vessel plaque
S. Tanigawa, K. Mano, K. Wada, T.
Matsunaka, H. Horinaka
Osaka Pref. Univ., Japan
APBPp2-19
Near-infrared fluorescence fluctuation
measurement system - Its design and
applications
G. Nishimura
Hokkaido Univ., Japan
----- Lunch Break (12:15-13:15)----13:15-14:00 APBP3: Poster Flash Presentation -2
Room 303
Chair: S. Kawauchi, Program Committee Member,
Natl Def. Med. Coll., Japan
I. Nishidate, Program Committee Member,
Tokyo Univ. of Agri. & Tech., Japan
APBPp3-1
Development
of
near-infrared
multispectral angioscope at wavelengths
around 1200 nm for the quantitative
diagnosis of atherosclerotic plaque
D. Matsui, K. Ishii, R. Nagao, K. Awazu
Osaka Univ., Japan
APBPp3-2
Simultaneous measurement of vasomotion
and plethysmogram in human skin during
Stroop test
A. Hoshi 1), I. Nishidate 1), K Niizeki 2), Y.
Aizu 3)
1) Tokyo Univ. of Agri. & Tech., Japan,
2) Yamagata Univ., Japan, 3) Muroran Inst. of
Tech., Japan
APBPp3-3
Non-contact imaging of plethysmogram
and tissue oxygen saturation during change
in fraction of inspired oxygen
R. Sato 1), I. Nishidate 1), K. Niizeki 2), Y. Aizu
APBPp2-17
3)
1) Tokyo
Univ. of Agri. and Tech., Japan,
Yamagata Univ., Japan, 3) Muroran Inst. of
Tech., Japan
Evaluation of light scattering properties
and blood content in skin tissue based on
diffuse reflectance images at isosbestic
wavelengths of hemoglobin
T. Yokokawa, I. Nishidate
Tokyo Univ. of Agri. & Tech., Japan
Title Nonlinear estimation of chromophore
concentration for human skin based on
Monte Carlo simulation
M. Hirose, N. Tsumura
Chiba Univ., Japan
Effect of the sample thickness on the
scattering angular distribution and the
anisotropy factor of biological tissue
phantom
K. Ishii, D. Fukutomi, K. Awazu
Osaka Univ., Japan
Error caused by anisotropy factor in
optical properties measurement by time2)
APBPp3-4
APBPp3-5
APBPp3-6
APBPp3-7
APBPp3-8
APBPp3-9
APBPp3-10
APBPp3-11
APBPp3-12
APBPp3-13
APBPp3-14
APBPp3-15
resolved spectroscopy
K. Nadamoto 1), Y. Tanikawa 2), Y. Hoshi 3), E.
Okada 1)
1) Keio Univ., Japan, 2) AIST, Japan, 3) Tokyo
Metro. Inst. of Med. Sci., Japan
Development of muscle activity evaluation
method by using time-resolved diffuse
optical tomography
Y. Tanikawa 1), F. Gao 2), M. Miyakawa 3), T.
Kiryu 3), T. Kizuka 4), S. Okawa 5), Y. Hoshi 6),
Y. Yamada 7)
1) AIST, Japan, 2) Tianjing Univ, Chaina,
3) Niigata Univ., Japan, 4) Univ. of Tsukuba,
Japan, 5) Natl Def. Med. Coll., Japan, 6) Tokyo
Metro. Inst. of Med. Sci., Japan, 7) Univ. of
Electro-Comm., Japan
Light propagation analysis in the cortical
model with three dimensional blood vessel
structure
obtained
by
two-photon
microscopy
Y. Yoshimori 1), T. Kikuchi 1), H. Takuwa 2),
H. Kawaguchi 2), H. Ito 2), E. Okada 1)
1) Keio Univ., Japan, 2) Natl Inst. of Radio. Sci.,
Japan
Estimation of partial optical path length in
the cortical blood vessels from 2D image of
exposed cortex
Y. Yamamoto 1), T. Kikuchi 1), Y. Yoshimori
1), H. Takuwa 2), H. Kawaguchi 2), K.
Sakaguchi 3), H. Ito 2), E. Okada 1)
1) Keio Univ., Japan, 2) Natl Inst. of Radio. Sci.,
Japan, 3) Okayama Pref. Univ., Japan
Multispectral imaging of light scattering
and hemodynamics of in vivo rat cerebral
cortex based on the diffuse reflectance
spectroscopy
T. Ishizuka 1), K. Yoshida 1), I. Nishidate 1), S.
Kawauchi 2), S. Sato 2), M. Sato 3)
1) Tokyo Univ. of Agri. & Tech., Japan, 2) Natl
Def. Med. Coll., Japan, 3) Yamagata Univ.,
Japan
Multispectral imaging of light scattering
and hemodynamics of in vivo rat cerebral
cortex based on the diffuse reflectance
spectroscopy
T. Ishizuka 1), K. Yoshida 1), I. Nishidate 1), S.
Kawauchi 2), S. Sato 2), M. Sato 3)
1) Tokyo Univ. of Agri. & Tech., Japan,
2) Natl Def. Med. Coll., Japan, 3) Yamagata
Univ., Japan
Improvement of localization error and
spatial broadening of diffuse optical
imaging by dense probe arrangement
Y. Sakakibara 1), K. Kurihara 1),2), E. Okada 1)
1) Keio Univ., Japan, 2) JSPS, Japan
Low-resolution image reconstruction for
diffuse optical topography
R. Tsuyuki 1), K. Kurihara 1),2), S. Okawa 3), E.
Okada 1)
1) Keio Univ., Japan, 2) JSPS, Japan, 3) Natl
Def. Med. Coll., Japan
Image reconstruction for diffuse optical
tomography using a realistic human head
model including extra-cerebral vasculature
22
APBPp3-16
K. Kurihara 1),2), H. Kawaguchi 3), S. Okawa 4),
T. Obata 3), H. Ito 3), E. Okada 1)
1) Keio Univ., Japan, 2) JSPS, Japan, 3) Natl
Inst. of Radio. Sci., Japan, 4) National Def.
Med. Coll., Japan
Estimation of partial optical path length in
the brain using semi-specific head model
for near-infrared spectroscopy
K. Nakamura 1), K. Kurihara 1),2), H.
Kawaguchi 3), H. Ito 3), T. Obata 3), E. Okada
1)
1)
Keio Univ., Japan, 2) JSPS, Japan,
Inst. of Radio. Sci., Japan
14:00-15:15
3)
Natl
Poster View and Discussion
Exhibition Hall C
----- Break (15:15-15:45)----APBP4: Diffuse Spectroscopy and Imaging -1
Room 303
Chairs: G. Nishimura, Int. Steering Committee Chair,
Hokkaido Univ., Japan
Y. Aizu, Int. Steering Committee Member,
Muroran Inst. Tech., Japan
APBP4-1
(Plenary) New methods for whole-animal,
15:45
quantitative, high-resolution, molecular
imaging
A B. W. Pogue
Dartmouth College, USA
APBP4-2
Combined imaging of near-infrared diffuse
16:45
reflectance and cerebral blood flow for a
rat stroke model: progression monitoring
and differentiation of the lesions
S. Kawauchi 1), I. Nishidate 2), H. Nawashiro
3), S. Sato 1)
APBP4-3
In vivo evaluation of optical properties of
17:00
rat liver using single reflectance fiber
probe during ischemia and reperfusion
S. Akter 1), I. Nishidate 1), S. Kawauchi 2), S.
Sato 2)
1) Tokyo Univ. of Agri. & Tech., Japan,
2) Natl Def. Med. Coll., Japan
APBP4-4
Title Multispectral imaging of intrinsic
17:15
optical properties of in vivo exposed rat
brain using a digital red-green-blue camera
K. Yoshida 1), T. Ishizuka 1), I. Nishidate 1), S.
Kawauchi 2), S. Sato 2), M. Sato 3)
1) Tokyo Univ. of Agri. & Tech., Japan, 2)
National Def. Med. Coll., Japan, 3) Yamagata
Univ., Japan
APBP4-5
Prediction of temperature distributions
17:30
around a small heated sphere and its heat
production rates using a near-infrared
absorption technique
N. Kakuta 1), K. Yamada 1), R. Fujioka 3), K.
Kondo 4), H. Arimoto 3), Y. Yamada 4)
1) Tokyo Metro. Univ., Japan, 2) Tottori Univ.,
Japan, 3) AIST, Japan, 4) The Univ. of ElectroCommu., Japan
15:45-17:45
Friday, April 24
9:00-10:45 APBP5: Photo Therapeutics and Laser Tissue/Cell
Interactions
Room 303
Chairs: S. Sato, Int. Steering Committee Member,
Natl Def. Med. Coll., Japan
K. Ishii, Program Committee Member,
Osaka Univ., Japan
APBP5-1
(Invited) Photodynamic therapy as a
9:00
salvage treatment for local failure after
chemoradiotherapy for esophageal cancer
T. Yano 1), M. Muto 2)
1) Natl Cancer Cent. Hosp. East, Japan,
2) Kyoto Univ., Japan
APBP5-2
Cancer cell inactivation based on localized
9:30
surface plasmon resonance of Au nanoring
Y.-C. Tu, C.-K. Chu, Y.-W. Chang, C.-K. Chu
1), S.-Y. Chen, T.-T. Chi, Y.-W. Kiang, C. C.
Yang
Natl Taiwan Univ., Taiwan
APBP5-3
Selective ablation of atherosclerotic lesion
9:45
with less thermal effect by the control of
pulse structure of a quantum cascade laser
in the 5.7 m wavelength range
K. Hashimura 1),2), K. Ishii 1), K. Awazu 1)
1) Osaka Univ., Japan, 2) JSPS, Japan
APBP5-4
Proposal
of
ultrasonic-assisted
10:00
spectroscopy for practical usages
K. Nogo, K. Mori, S. Sato, A. Nishiyama, K.
Wada, I. Ishimaru
Kagawa Univ., Japan
APBP5-5
Spectroscopic imaging of blood vessels only
10:15
near skin surfaces for non-invasive blood
glucose sensor
K. Mori, M. Fujiwara, S. Sato, P. K. W.
Abeygunawardhansdda, S. Suzuki, A.
Nishiyama, K. Wada, I. Ishimaru
Kagawa Univ., Japan
APBP5-6
Calculation of scattering coefficient with
10:30
anisotropy
factor
considered
the
wavelength and absorption dependence for
biological tissues
D. Fukutomi, K. Ishii, K. Awazu
Osaka Univ., Japan
----- Break (10:45-11:00)----11:00-12:30
APBP6: Photoacoustic Method
Room 303
Chair: Y. Yamaoka, Program Committee Member,
Kyoto Pref. Univ. of Med., Japan
M. Hisaka, Program Committee Member,
Osaka Electro-Comm. Univ., Japan
APBP6-1
(Invited) Recent progress in photoacoustic
11:00
imaging: systems, agents, and applications
A C. Kim
Pohang Univ. of Sci. & Tech., Korea
APBP6-2
Theranostics based on nanosecond laser
11:30
pulses enabling photomechanical drug
delivery and photoacoustic imaging for
pharmacokinetics
Y. Tsunoi 1), S. Sato 2), R. Watanabe 1), S
Kawauchi 2), Y. Miyagawa 2), K. Araki 2), A.
Shiotani 2), T. Takemura 2), M. Terakawa 1)
1) Keio Univ., Japan, 2) Natl Def. Med. Coll.,
Japan
APBP6-3
Photoacoustic imaging of macrophage with
11:45
gold nanorod
23
A Y. Saijo, R. Uamazaki, K. Ogasawara
Tohoku Univ., Japan
Precise cross-sectional imaging using twophoton photoacoustic microscopy with
image subtraction and time-gated detection
A Y. Yamaoka 1), Y. Harada 2), T.
Minamikawa 1), S. Nishino 2), S. Maehara 2), S.
Hamano 2), T. Takamatsu 1)
1) Kyoto Pref. Univ. of Med., Japan,
2) Terasaki Electric Co., Ltd., Japan
A time delay calibrated method of
intraocular pressure
K.-J Wang 1), C.-L. Tsai 2), W. Wang 1), L. Hsu
2), K.-Y. Hsu 2)
1) Crystalvue Medical Corp., Taiwan, 2) Natl
Chiao Tung Univ., Taiwan
APBP6-4
12:00
APBP6-5
12:15
----- Lunch Break (12:30-13:30)----13:30-15:45
APBP7: Optical Microscopy and Nanoscopy
Room 303
Chairs: K. Fujita, Int. Steering Committee Member,
Osaka Univ., Japan
M. Hashimoto, Int. Steering Committee Member,
Osaka Univ., Japan
APBP7-1
(Invited) Development of a novel
13:30
spontaneously blinking fluorophore for
single-molecule localization microscopy
Y. Urano, M. Kamiya, S. Uno
Univ. of Tokyo
APBP7-2
New concept of mechanical scanner‐less
14:00
multiple beams confocal microscope with
wavefront modulation
Y. Takiguchi 1), M.-W. Seo 2), K. Kagawa 2), T.
Inoue 1), S. Kawahito 2), T. Terakawa 3)
1) Hamamatsu Photonics K.K., Japan,
2) Shizuoka Univ., Japan, 3) Tokoha Univ.,
Japan
APBP7-3
Subdiffraction-limited live cell imaging
14:15
using surface-enhanced plasmonics
D. Kim, W. Lee, T. Son
Yonsei Univ., Korea
APBP7-4
Biological high-resolution imaging in wet14:30
condition using cathodoluminescence
microscopy
T. Furukawa 1), S. Fukushima 1), H. Niioka 2),
M. Ichimiya 2), J. Miyake 1), M. Ashida 1), T.
Araki 1), M. Hashimoto 1)
1) Osaka Univ., Japan, 2) The Univ. of Shiga
Pref., Japan
APBP7-5
Near-infrared multi-wavelength imaging
14:45
to elucidate ionic diffusion and reaction in
aqueous solutions
A D. Kawashima 1), N. Kakuta 2), H. Arimoto
3), K. Kondo 4), Y. Yamada 4)
1) Tokyo Metro. Univ., Japan, 2) AIST, Japan,
3) Tottori Univ., Japan, 4) Univ. of ElectroCommu., Japan
APBP7-6
Depth-selective
reflection
phase
15:00
microscopy using time-varying speckle
field
A Y. Choi 1), P. Hosseini 2), W. Choi 1), P. T.
C. So 2)
1) Korea Univ., Korea",2) MIT, USA
APBP7-7
15:15
APBP7-8
15:30
Title Functional image of vascular smooth
muscle cells grown on biomimetic
nanofiber matrices using two-photon
microscopy
S. W. Jun 1), Y. C. Shin 1), J. H. Lee 1), D.-W.
Han 1), C.-S. Kim 1), C. Y. Dong 2)
1) Pusan Natl Univ., Korea, 2) Natl Taiwan
Univ., Taiwan
Visible-wavelength two-photon excitation
microscopy
K. Fujita, M. Yamanaka, K. Uegaki, K.Saito,
Y. Arai, Y. Yonemaru, K. Mochizuki, S.
Nicholas, S. Kawata, T. Nagai
Osaka Univ., Japan
----- Break (15:45-16:00)-----
16:00-17:30
APBP8: Diffuse Spectroscopy and Imaging -2
Room 303
Chairs: Y. Tanikawa, Program Committee Member,
AIST, Japan
M. Kawaguchi, Program Committee Member,
AIST, Japan
APBP8-1
(Invited) Recent progress in Time16:00
Resolved Spectroscopy and its medical
applications
Y. Yamashita 1), H. Suzuki 2), K. Yoshimoto 2),
S. Honma 1), E. Ohmae 1), Y. Ueda 1), H. Ogura
2), H. Sakahara 3)
1) Hamamatsu Photonics K.K., Japan,
2) Hamamatsu Univ. School of Med., Japan,
3) Hyogo Coll. of Med., Japan
APBP8-2
Analysis of Diffuse Optical Tomography
16:30
Using Sequential FDM Method
H. S. Jang, S. W. Jun, C. S. Kim
Pusan Natl Univ., Korea
APBP8-3
Study on a reconstruction technique using
16:45
time domain reflectance measurements
data
D. Furukawa, G. Nishimura
Hokkaido Univ., Japan
APBP8-4
Estimation of scattering coefficient using
17:00
backscattered light from turbid medium
K. Shimizu, K. Iinaga, Y. Kato
Hokkaido Univ., Japan
APBP8-5
Numerical
simulation
of
iterative
17:15
reconstruction for optical tomography and
detection of tumor in human neck based on
the time-dependent 3D radiative transfer
equation
K. Hashimoto 1), H. Fujii 2), S. Kohno 1), E.
Okada 3), S. Okawa 4), Y. Tanikawa 5), T.
Yoshinaga 6), Y. Hoshi 1)
1) Tokyo Metro. Inst. of Med. Sci., Japan, 2)
Hokkaido Univ., Japan, 3) Keio Univ., Japan, 4)
Natl Def. Med. Coll., Japan, 5) AIST, Japan, 6)
The Univ. of Tokushima, Japan
17:30-17:50
Award Ceremony and Closing
Room 303
Award Ceremony
17:30
Closing Remarks
17:45
G. Nishimura, Int. Steering Committee Chair,
24
Hokkaido Univ., Japan
CLEj1-2
17:00
Conference on Lasers Energetics 2015
CLE2015
Wednesday, April 22
13:40-17:30 ALPS, CLE, HEDS Joint Session
Room 303
Chair: Hiroshi Azechi, Conference Chair of CLE2015, ILE,
Osaka University, Japan
HEDSj1-1
(Invited) High Energy Density Science Explored
13:40
with High-Power-Laser and Plasma-Device
Technologies
R. Kodama
Osaka Univ., Japan
HEDSj1-2
(Invited) Status and Challenges of the Compact
14:10
XFEL Facility SACLA
M. Yabashi
RIKEN Spring-8 Center, Japan
ALPSj1-1
(Invited) Prospects for Advanced X-Ray and
14:40
Gamma-Ray Sources with Exawatt Laser
Facility XCELS
A. M. Sergeev1,2), A. V. Bashinov1,2), A. A.
Gonoskov1,2,3), E. S. Efimenko1,2), A. V.
Korzhimanov 1,2), A. A. Muraviev1,2), A. V. Kim1,2)
1)Inst. of Appl. Phys. of Russian Academy of Sci.,
Russia 2)Univ. of Nizhny Novgorod, Russia
3)Chalmers Univ. of Tech., Sweden
CLEj1-1
(Invited) Laboratory Astrophysical Collisionless
15:10
Shock Experiments on Omega and NIF*
H.-S. Park1), C. M. Huntington1), F. Fiuza1,2),
R. P. Drake3), D. Froula4), G. Gregori5), M.
Koenig6), C. Kuranz3), D. Lamb7), M. Levy1,5), C.
K. Li 8), J. Meinecke 5), R. Petrasso 8), B. B. Pollock1),
B. A. Remington 1), H. Rinderknecht 8), M. Rosenberg 4),
J. S. Ross1), D. D. Ryutov1), Y. Sakawa9), A
Spitkovsky10), H. Takabe9), D. P. Turnbull1), P.
Tzeferacos7), S. V. Weber1), A. B. Zylstra8)
1) Lawrence Livermore National Laboratory, USA
2)SLAC National Accelerator Laboratory, USA
3)University of Michigan, USA 4)Laboratory for
Laser Energetics, University of Rochester, USA
5)University of Oxford, UK 6)LULI, Ecole
Polytechnique, France 7)University of Chicago,
USA 8)Massachusetts Institute of Technology,
USA 9)ILE, Osaka University, Japan 10)Princeton
University, USA
----- Break (15:40-16:00) ----ALPSj1-2
16:00
HEDSj1-3
16:30
(Invited) Advancement of Laser-Driven
Compact Particle Accelerators
C. H. Nam1),2), H. T. Kim1),3), V. B. Pathak1), K. H.
Pae1), S. K. Lee1),3), J. H. Sung1),3), H. W. Lee1), J.
H. Shin1), K. Nakajima1)
1)Center for Relativistic Laser Sci., Inst. for Basic
Sci. (IBS), Korea 2)Dept. of Phys. and Photon Sci.,
GIST, Korea 3)Advanced Photonics Res. Inst.,
GIST, Korea
(Invited) High Energy Photon and Charged
Particle Sources with Relativistic Mirrors:
Novel Results and Perspectives
S. Bulanov
JAEA, Japan
25
(Invited) Tuning Laser Produced ElectronPositron Jets for Lab-Astrophysics Experiment
H. Chen1), F. Fiuza2), A. Hazi1), R. Heeter1), A.
Kemp1), G. E. Kemp1), A. Link1), B. Pollock1), E.
Marley1), S. R. Nagel1), J. Park1), M. Schneider1),
R. Shepherd1), R. Tommasini1), S. C. Wilks1), G.
J. Williams1), D. Barnak3), P-Y. Chang3), G.
Fiksel3), V. Glebov3), D. D. Meyerhofer3), J. F.
Myatt3), C. Stoeckel3), M. Nakai4), Y. Arikawa4),
H. Azechi4), S. Fujioka4), H. Hosoda4), S.
Kojima4), N. Miyanaga4), T. Morita4), T.
Moritaka4), T. Nagai4), T. Namimoto4), H.
Nishimura4), T. Ozaki4), Y. Sakawa4), H.
Takabe4), Z. Zhang4)
1)Lawrence Livermore National Laboratory, USA
2)SLAC National Accelerator Laboratory, USA
3)LLE, University of Rochester, USA 4)ILE,
Osaka University, Japan
---- Break / Move (17:30-18:00) -----
18:00-20:00
OPIC Banquet
Room 501+502
Thursday, April 23
9:00-9:10
Opening
Room 413
Opening Remarks
9:00
Hiroshi Azechi, Conference Chair of CLE2015,
ILE, Osaka University, Japan
9:10-12:30
CLE1:Magnetic Field, Jet, Shock Room 413
Chair: Frederico Fiuza, SLAC National Accelerator Laboratory,
USA
CLE1-1
(Invited) Magnetic field amplification of laser9:10
produced plasmas
J. Meinecke1), H. Doyle1), F. Miniati2), A. R. Bell1),
R. Bingham3), R. Crowston4), R. P. Drake5), M.
Fatenejad1,6), M. Koenig7), Y. Kuramitsu8), C.
Kuranz5), D. Q. Lamb6), D. Lee6), M. J.
MacDonald5), C. D. Murphy9), H.-S. Park10), A.
Pelka7), A. Ravasio7), Y. Sakawa8), A. A.
Schekochihin1), A. Scopatz6), P. Tzeferacos6), W.
C. Wan5), N. C. Woolsey4), B. Revillel1), and G.
Gregori1)
1)University of Oxford, UK 2)ETH Zürich,
Switzerland 3)Rutherford Appleton Laboratory, UK
4)University of York, UK 5) University of Michigan,
6)University
USA
of Chicago, USA
7)Laboratoire pour l’Utilisation de Lasers Intenses,
France
8)Institute
of
Laser
Engineering,
Osaka University, Japan 9)University of Edinburgh,
UK 10)Lawrence Livermore National Laboratory,
USA 11)Queens University Belfast, UK
CLE1-2
(Invited) Generation of Strong Magnetic Fields
9:40
From Laser-Matter Interactions
J.J. Santos1), M. Bailly-Grandvaux1), P. ForestierColleoni 1), S. Fujioka 2), L. Giuffrida 1), Ph. Korneev 1,3),
Z. Zhang2), D. Batani1), R. Bouillaud1), M. Chevrot3),
J. Cross4), R. Crowston5), S. Dorard3), J.-L. Dubois6),
J. Gazave 6), G. Gregori 4), J.J. Honrubia 7), E. d'Humières 1),
S. Hulin1), K. Ishihara2), S. Kojima2), E. Loyer3),
J.-R. Marqués 3), A. Morace 2), Ph. Nicolaï 1), O. Peyrusse 1),
A. Poyé1), D. Raffestin6), J. Ribolzi6), M. Roth8), G.
CLE1-3
10:10
Schaumann8), F. Serres3), C. Spindloe9), V.T.
Tikhonchuk1), Ph. Vacar3), N. Woolsey5)
1)Univ. Bordeaux, CNRS, CEA, CELIA,
France
2)Institute of Laser Engineering, Osaka University,
Japan 3)NRNU MEPhI, Russian Federation 3)LULI,
Ecole Polytechnique, CNRS, CEA, France
4)University of Oxford, UK 5)University of York,
UK 6)CEA/ DAM/ CESTA, France, 7)Universidad
Politécnica de Madrid, Spain 8)Tech. Univ.
Darmstadt, Germany, 9)Rutherford Appleton
Laboratory, UK
(Invited) Laboratory modeling of stable and
collimated Astrophysical Jets
B. Albertazzi1,2,20), A. Ciardi 3,4), M. Nakatsutsumi 1),
T. Vinci1), J. Béard5), R. Bonito6,7), J. Billette5),
M. Borghesi8,9), Z. Burkley1), S.N. Chen1), T. E. Cowan10,11),
T. Herrmannsdörfer7), D. P. Higginson 1), F. Kroll10,11),
S. A. Pikuz12,13), K. Naughton8), L. Romagnagni1),
C. Riconda1), G. Revet1), R. Riquier1,15), H-P.
Schlenvoigt11), I. Yu. Skobelev12), A. Ta. Faenov12,16),
A. Soloviev17), M. Huarte-Espinosa18,19), A.
Franck18), O. Portugall5), H. Pépin2), J. Fuchs1,17)
1)LULI, École Polytechnique, CNRS, CEA,
France 2)INRS-EMT, Canada 3)Sorbonne
4)LERMA,
Universités,
UPMC,
France
5)
Observatoire de Paris, France LNCMI, UPR,
France 6)Dipartimento di Fisica e Chimica
Universita di Palermo, Italy 7)INAF-Observatorio
Astronomico di Palermo, Italy 8)School of
Mathematics and Physics, The Queen’s University
of Belfast, United Kingdom 9)Institute of Physics
of the Academy of Science- ELI-Prague, Czech
Republic 10)Technische Universitat Dresden,
Germany 11)Helmoltz- Zentrum DresdenRossendorf, Germany 12)Joint Institute for High
Temperatures Russian Academy of Sciences,
Russia 13)National Research Nuclear University,
Russia 14)Sorbonne Universités, France 15)CEABruyères le Chatel, France 16)Insitute for
Academic Initiatives, Osaka University, Japan
17)Institute
of Applied Physics, Russia
18)Department
of Physics and Astronomy,
University of Rochester, USA 19)Center for
Advanced Computing and Data Systems,
University of Houston, USA 20)Graduate School of
Engineering, Osaka University, Japan
-- ----- Break (10:40-11:00) ----
CLE1-4
11:00
CLE1-5
11:30
(Invited) Generation of Magnetized Collisionless
Shocks by a Laser-Driven Magnetic Piston
D. B. Schaeffer, A. S. Bondarenko, E. T. Everson,
S. E. Clark, C. G. Constantin, W. Gekelman, and
C. Niemann
Department of Physics and Astronomy, University
of California - Los Angeles, USA
(Invited) Colliding magnetized and unmagnetized
high-energy-density plasmas for laboratory
W. Fox1), A. Bhattacharjee1,2), C. Liu2), W. Deng2),
G. Fiksel3), D. Haberberger, D. Barnak3), P. Y.
Chang3), S. X. Hu3), P. M. Nilson3)
1)Princeton Plasma Physics Laboratory, USA
2)Department of Astrophysical Sciences, Princeton
University, USA 3)Laboratory for Laser
26
CLE1-6
12:00
CLE1-7
12:15
Energetics, University of Rochester, USA
Hydrodynamics of high-energy-density plasma
under sub-kilo-tesla magnetic field
S. Fujioka1), Z. Zhang1), H. Nagatomo1), K.
Matsuo1), T. Sano1), Y. Sakawa1), S. Sakata1), S.
Kojima1), Y. Hara1), T. Morita2), Y. Kuramitsu3), J.
Breil4), P. Nicolai4), H. Azechi1)
1)Institute of Laser Engineering, Osaka University,
Japan 2)Department of Advanced Energy
Engineering Science, Kyushu University, Japan
3)Department
of Physics, National Central
University, Taiwan 4)CELIA, University of
Bordeaux, France
Laser-produced plasma in an ambient magnetic
field versus magnetized laser- produced plasma
Ph. Korneev1), E. d’Humières2), D.P. Higginson3),
V. Tikhonchuk2), J. Fuchs3)
1)National Research Nuclear University “MEPhI”,
Russian Federation 2)University of Bordeaux,
CNRS-CEA, CELIA, France 3)Laboratoire pour
l'Utilisation des Lasers Intenses, CNRS-CEA École
Polytechnique Université, France
----- Lunch Break(12:30-13:15)-----
13:15-18:00 CLE2:High Field, Gravitational Wave, LaserPlasma Interaction, Hydrodyanamics
Room 413
Chair: Mitsuo Nakai, ILE, Osaka University, Japan
CLE2-1
(Invited) Method for Detection of Nuclear13:15
Plasma Interactions in a 134Xe-Doped
Exploding Pusher at the National Ignition
Facility
D. L. Bleuel1), L. A. Bernstein1), W. S. Cassata1),
B. H. Daub 1,2), B. L. Goldblum 2), L. Berzak Hopkins1),
S. Siem3), C. A. Velsko1), M. Wiedeking4)
1)Lawrence Livermore National Laboratory, USA
2)University of California at Berkeley, USA
3)University of Oslo, Norway 4) iThemba LABS,
South Africa
CLE2-2
(Invited) Laser Compton scattering gamma-ray
13:45
experiments for Supernova neutrino process
T. Hayakawa1), S. Miyamoto2), T. Mochizuki2), K.
Horikawa2), S. Amano 2), D. Li3), K. Imazaki3), Y.
Izawa3), K. Ogata4), S. Chiba5)
1)Japan Atomic Energy Agency, Japan 2)University
of Hyogo, Japan 3)Institute for Laser Technology,
Japan 4)RCNP, Osaka University, Japan 5)Tokyo
Institute of Technology, Japan
CLE2-3
Gravitational waves from fully general14:15
relativistic simulations of binary neutron-star
mergers
L. Baiotti
Graduate School of Science, Osaka University,
Japan
CLE2-4
(Invited) Large-scale Cryogenic Gravitational
14:30
Wave Telescope -KAGRAT. Tomaru and KAGRA Collaboration
High Energy Accelerator Research Organization,
Japan
----- Break(15:00-15:30)----Chair: Hideaki Takabe, ILE, Osaka University, Japan
CLE2-5
15:30
CLE2-6
16:00
CLE2-7
16:30
CLE2-8
16:45
CLE2-9
17:15
CLE2-10
17:30
CLE2-11
17:45
(Invited) Quantum Optics in the Vacuum
toward Laboratory Search for Dark Fields in
the Universe
K. Homma
Hiroshima University, Japan
(Invited) An experiment proposal for photonphoton interaction
D. Tatsumi
National Astronomical Observatory of Japan,
Japan
Spectral Deformation by Induced Compton
Scattering
S. Tanaka
Institute for Cosmic Ray Research, University of
Tokyo, Japan
(Invited) Laser-driven electron beams: from
supra-thermal to relativistic electron transport
Ph. Nicolai1), D. Del Sorbo1), J.-L. Feugeas1), J.
Santos1), M. Touati1), J. Breil1), D. Batani1), S.
Gus'kov3), L. Volpe2), V. Tikhonchuk1)
1)Univ. Bordeaux, CNRS, CEA, Centre Lasers
Intenses et Applications, France 2)Centro de
Laseres, Pulsado (CLPU), Spain 3)P. N. Lebedev
Physical Institute, Russia
"Stochastic Vacuum Heating” described by
chaotic motion of electrons in laser-plasma
A. Yogo1), S. V. Bulanov2), A. S. Pirozhkov2), T.
Zh. Esirkepov2), H. Nishimura1), and K. Kondo2)
1)Institute of Laser Engineering, Osaka University,
Japan 2)Kansai Photon Science Institute, JAEA, Japan
Toward a Coupled Computation of Radiative
Transfer with Relativistic Hydrodynamics
Relevant to GRB Emission
A. Ishii1), F. Nabeshima1), N. Ohnish1), H.
Nagakura2), H. Ito3), S. Yamada4)
1)Department of Aerospace Engineering, Tohoku
University, Japan 2)Yukawa Institute for
Theoretical Physics, Kyoto University, Japan
3)Astrophysical Big Bang Laboratory, RIKEN,
Japan 4)Advanced Research Institute for Science
and Engineering, Waseda University, Japan
3D simulation of non-stationary RayleighTaylor Instabilities in supernova remnants for
laboratory astrophysics experiments
J. Breil1), G. Georges1), X. Ribeyre1)
1)UMR CELIA, Bordeaux University, France
Friday, April 24
CLE3-3
10:00
------ Break (10:30-11:00)----CLE3-4
11:00
CLE3-5
11:30
CLE3-6
12:00
9:00-12:30
CLE3:Shock
Room 413
Chair: Hye-Sook Park, Lawrence Livermore National Lab., USA
CLE3-1
(Invited) Ab initio modeling of magnetic field
9:00
generation and particle acceleration in
laboratory and astrophysical plasmas
F. Fiuza
SLAC National Accelerator Laboratory, USA
CLE3-2
(Invited) Astrophysical collisionless shock
9:30
experiments using large-scale laser systems
Y. Sakawa1), H.-S. Park2), G. Gregori3), A.
Spitkovsky4), C. Huntington2), F. Fiuza5), J. S.
Ross2), D. D. Ryutov2), B. B. Pollock2), B.
Remington2), M. C. Levy2,3), S. V. Weber2), D. P.
27
Turnbull2), J. Meinecke3), A. B. Zylstra6), C. K. Li6),
H. Rinderknecht6), A. Zylstra6), R. Petrasso6), N. L.
Kugland7), R. P. Drake8), C. Kuranz8), D. H.
Froula9), S. Regan9), M. Rosenberg9), D. Lamb10), P.
Tzeferacos10), N. Woolsey11), M. Koenig12), T.
Morita13), Y. Kuramitsu14), T. Sano1), T. Moritaka1),
T. N. Kato15), and H. Takabe1)
1)Institute of Laser Engineering, Osaka
University,
Japan 2)Lawrence Livermore National Lab., USA
3)Department of Physics, Oxford University, UK
4)Department of Astrophysical Sciences, Princeton
University, USA 5)SLAC National Accelerator
Laboratory, USA 6)Plasma Science and Fusion
Center, Massachusetts Institute of Technology, USA
7)Lam Research Corporation, USA 8)Department of
Atmospheric, Oceanic, and Space Sciences,
University of Michigan, USA 9)Laboratory for
Laser Energetics, University of Rochester, USA
10)University of Chicago, USA 11)Department of
Physics, University of York, UK 12)LULI, Ecole
Polytechnique, France 13)Faculty of Engineering
Sciences, Kyushu University, Japan 14)Department
of Physics, National Central University, Taiwan
15)National Astronomical Observatory of Japan,
Japan
(Invited) Radiative Shocks on LIL laser facility
C. Michaut1), M. Koenig2), A. Casner3), S.
Bouquet3), S. Laffite 3), D. Raffestin3)
1)LUTH, Observatoire de Paris, France 2)LULI,
Ecole Polytechnique, France 3)CEA-DAM, France
(Invited) Particle Acceleration in Our Galaxy as
Revealed by X-ray and Gamma-ray Observations
Y. Uchiyama
Graduate School of Science, Rikkyo University,
Japan
(Invited) Magnetohydrodynamic Simulation of
Supernova Shock Wave in Realistic Interstellar
Medium
T. Inoue1), R. Yamazaki2), S. Inutsuka3), T. Sano4)
1)Division of Theoretical
Astronomy, National
Astronomical Observatory of Japan, Japan
2)Department of Physics and Mathematics, Aoyama
Gakuin University, Japan 3)Department of Physics,
Graduate School of Science, Nagoya University,
Japan 4)Institute of Laser Engineering, Osaka
University, Japan
(Invited) Supercomputing for exploring electron
accelerations in strong shock waves
Y. Matsumoto1), T. Amano2), T. N. Kato3), and M.
Hoshino2)
1)Department of Physics, Chiba University, Japan
2)Department of Earth and Planetary Science, The
University of Tokyo,
Japan 3)CfCA, National
Astronomical Observatory of Japan, Japan
----- Lunch Break(12:30-13:00)-----
13:00-15:00
CLE4:Poster Session
Exhibition Hall C
CLEp4-1
CLEp4-2
CLEp4-3
CLEp4-4
CLEp4-5
CLEp4-6
CLEp4-7
Generation of Magnetized Collisionless Shocks
with High-Power Lasers
Y. Shoji1), R. Yamazaki1), Y. Kawamura1), Y. Ohira1),
S. Tomita1), Y. Sakawa2), H. Takabe2), T. Sano2), T.
Moritaka2), Y. Hara2), S. Kondo2), S. Matsukiyo3), T.
3),
Morita
K.
Tomita3),
H.
Yoneda4),
K. Nagamine 4), Y. Kuramitsu 5), N. Onishi 6), T. Umeda 7)
1)Department of Physics and Mathematics, Aoyama
Gakuin University, Japan 2)Institute of Laser
Engineering, Osaka University, Japan 3)Department
of Earth System Science and Technology, Kyushu
University, Japan 4)Institute for Laser Science,
University of Electro- Communications, Japan
5)Department
of Physics, National Central
University, Taiwan 6)Department of Aerospace
Engineering, Tohoku University, Japan 7)SolarTerrestrial Environment Laboratory, Nagoya
University, Japan
Vacuum Polarization of Plane-Wave Fields
A. Yatabe, S. Yamada
Advanced Research Institute for Science and
Engineering, Waseda University, Japan
High Power Laser Experiment of Planar
Collisionless Shocks
M. Nakanotani1), S. Matsukiyo1), T. Hada1), Y.
Sakawa2), Y. Kuramitsu3), T. Morita1), K. Tomita1),
R. Fujino1), S. Kubo1), T. Sano2), T. Moritaka2), Y.
Hara2), R. Yamazaki4), H. Takabe2)
1)Faculty
of Engineering Sciences, Kyushu
University, Japan 2)Institute of Laser Engineering,
Osaka University, Japan 3) Department of Physics,
National Central University, Taiwan 4)Department of
Physics and Mathematics, Aoyama Gakuin
University, Japan
Acceleration of solid particle using GXII laser
system
Y. Hironaka1), O. Jyunki2), T. Sano1), K. Shigemori1),
M. Tagawa2), Y. Kitazawa3)
1)Institute of Laser Engineering, Osaka University,
Japan 2)Kobe University, Japan 3)IHI, Japan
Collective Thomson scattering of ES collisionless
shock
Y. Hara1), Y. Sakawa2), K. Tomita3), Y. Sato3), K.
Nishikawa3), T. Morita3), Y.Sano2), T. Moritaka2), H.
Takabe 2)
1)Graduate School of Science, Osaka University,
Japan 2)Institute of Laser Engineering, Osaka
University, Japan 3)Faculty of Engineering Sciences,
Kyushu University, Japan
Experimental study on plasma dynamics in a
magnetic thrust chamber
T. Morita1), N. Yamamoto1), N. Saito1), R.
Kawashima1), S. Fujioka2), A. Sunahara3), A. Yogo2),
H. Nishimura2), H. Nakashima1)
1)Faculty
of Engineering Sciences, Kyushu
University, Japan 2) Institute of Laser Engineering,
Osaka University, Japan 3)Institute for Laser
Technology, Japan
The measurement of laser-produced plasma in a
magnetic thrust chamber
R. Kawashima1), T. Morita1), N. Yamamoto1), N.
Saito1), H. Nakashima1), S. Fujioka2), A. Sunahara3),
Y. Mori4), T. Johzaki5)
1)Faculty
of Engineering Sciences, Kyushu
28
CLEp4-8
CLEp4-9
University, Japan 2)Institute of Laser Engineering,
Osaka University, Japan 3)Institute for Laser
Technology, Japan 4)The Graduate School for the
Creation of New Photonics Industries, Japan
5)Graduate School of Engineering,
Hiroshima
University, Japan
Stability property of numerical Cherenkov
radiation and its application to relativistic shock
simulations
N. Ikeya, Y. Matsumoto
Graduate School of Science, Chiba University, Japan
Refraction Index of Shock Compressed Water in
the Megabar Pressure Range
K. Jakubowska1,2), D. Batani2), M. Kimpel2), M.
Koenig3), A. Benuzzi-Mounaix3), B. Telaro3), M.
Rabec Le Gloahec3), T. Hall4), C. Cavazzoni5), I.
Masclet6), B. Marchet6), Ch. Reverdin6), R. Jeanloz6),
J. Pasley7), D. Neely8), C. Danson8)
1)IPPLM, Poland 2) Université Bordeaux, CNRS, CEA,
CELIA, France 3)Laboratoire pour l’Utilisation des
Lasers Intenses, France 4)University of Essex, UK
5)C.I.N.E.C.A.,
6)CEA/DAM,
Italy
France
7)University of York, UK 8)Central Laser Facility,
Rutherford Appleton Laboratory, UK
----- Break(15:00-15:20)-----
15:20-17:50
CLE5:Jet, Planetary Physics
Room 413
Chair: Keisuke Shigemori, ILE, Osaka University, Japan
CLE5-1
(Invited) Simulating the solar wind interaction
15:20
with the Venus in Laboratory
Y.T. Li1,5), Y.F. Li1), D. yuan1), B. Zhu1), J. Zhong2),
Y. Sakawa3), G. Zhao2), J. Zhang4,5)
1)National Laboratory for Condensed Matter
Physics, Institute of Physics, Chinese Academy of
Sciences, China 2)National Astronomical Observatories,
Chinese Academy of Sciences, China 3)Institute of
Laser Engineering, Osaka University, Japan 4)Key
Laboratory for Laser Plasmas (MoE) and
Department of Physics, Shanghai Jiao Tong
University, China 5)IFSA Collaborative Innovation
Centre, Shanghai Jiao Tong University, China
CLE5-2
(Invited) Impact–driven Ocean Acidification as
15:50
a Mechanism of Cretaceous–Palaeogene Mass
Extinctions
S. Ohno1), T. Kadono2), K. Kurosawa1), T. Hamura3),
T. Sakaiya4), K. Shigemori5), Y. Hironaka5), T.
Sano5), T. Watari5), K. Otani6), T. Matsui1), S.
Sugita7)
1)Planetary Exploration Research Center, Chiba
Institute of Technology, Japan 2)University of
Occupational and Environmental Health, Japan
3)Department
of Complexity Science and
Engineering, University of Tokyo, Japan
4)Department of Earth and Space Science, Graduate
School of Science, Osaka University, Japan
5)Institute of Laser Engineering, Osaka University,
Japan 6)Institut national de la recherche
scientifique–Énergie Matériaux Télécommunications,
Canada 7)Department of Earth and Planetary
Science, The University of Tokyo, Japan
CLE5-3
(Invited) Sound velocity of liquid iron alloys at
16:20
Earth’s core pressures by laser-shock compression
T. Sakaiya 1), N. Yokoyama 1), R. Hosogi 1), T. Kondo1),
CLE5-4
16:50
CLE5-5
17:20
H. Terasaki2), Y. Hironaka2), K. Shigemori2)
1)Department of Earth and Space Science,
Graduate School of Science, Osaka University,
Japan 2)Institute of Laser Engineering, Osaka
University, Japan
(Invited) Check of stellar microphysics with
high density lasers
S. Turck-Chièze 1), J. E. Ducret 1,2), M. Le Pennec1),
X. Ribeyre2), S. Salmon1)
1)CEA/IRFU/SAp, France 2)CELIA, CNRS-CEA,
Université de Bordeaux, France
(Invited) Astrobiological Implications of Reduced
Volatiles Released by High Power Laser-Shock
H. Yabuta1), T. Sakaiya1), T. Kondo1), S. Ohno2), M.
Nakabayashi1), T. Kadono3), K. Shigemori4), Y.
Hironaka4) and T. Yamanaka5)
1)Department of Earth and Space Science, Osaka
University, Japan 2)Planetary Exploration Research
Center (PERC), Chiba Institute of Technology, Japan
3)University of Occupational and Environmental
Health, Japan 4)Institute of Laser Engineering,
Osaka University, Japan 5)Geophysical Laboratory,
Carnegie Institution of Washington, USA
17:50-18:00
Closing
Room 413
Closing Remarks
17:50
Hideaki Takabe, ILE, Osaka University, Japan
29
High Energy Density Sciences 2015
HEDS 2015
Wednesday, April 22
13:40-17:30 ALPS, CLE, HEDS Joint Session
Chair: H. Azechi, Conference Chair of CLE’15, Osaka Univ., Japan
HEDSj1-1
13:40
HEDSj1-2
14:10
ALPSj1-1
14:40
CLEj1-1
15:10
Room 411&412
(Invited) High Energy Density Science Explored with High-Power-Laser and Plasma-Device Technologies
R. Kodama
OsakaUniv., Japan
(Invited) Status and Challenges of the Compact XFEL Facility SACLA
M. Yabashi
RIKEN Spring-8 Center, Japan
(Invited) Prospects for Advanced X-Ray and Gamma-Ray Sources with Exawatt Laser Facility XCELS
A. M. Sergeev1,2), A. V. Bashinov1,2), A. A. Gonoskov1,2,3), E. S. Efimenko1,2), A. V. Korzhimanov1,2), A. A.
Muraviev1,2), A. V. Kim1,2)
1)Inst. of Appl. Phys. of Russian Academy of Sci., Russia, 2)Univ. of Nizhny Novgorod, Russia, 3)Chalmers Univ. of
Tech., Sweden
(Invited) Laboratory Astrophysical Collisionless Shock Experiments on Omega and NIF*
H.-S. Park1), C. M. Huntington1), F. Fiuza1,2), R. P. Drake3), D. Froula4), G. Gregori5), M. Koenig6), C. Kuranz3),
D. Lamb7), M. Levy1,5), C. K. Li8), J. Meinecke5), R. Petrasso8), B. B. Pollock1), B. A. Remington1), H.
Rinderknecht8), M. Rosenberg4), J. S. Ross1), D. D. Ryutov1), Y. Sakawa9), A Spitkovsky10), H. Takabe9), D. P.
Turnbull1), P. Tzeferacos7), S. V. Weber1), A. B. Zylstra8)
1)Lawrence Livermore National Laboratory, USA, 2)SLAC National Accelerator Laboratory, USA, 3)University of
Michigan, USA, 4)Laboratory for Laser Energetics, University of Rochester, USA, 5)University of Oxford, UK,
6)LULI, Ecole Polytechnique, France, 7)University of Chicago, USA, 8)Massachusetts Institute of Technology, USA,
9)ILE, Osaka University, Japan, 10)Princeton University, USA
----- Break (15:40-16:00)-----
ALPSj1-2
16:00
HEDSj1-3
16:30
CLEj1-2
17:00
(Invited) Advancement of Laser-Driven Compact Particle Accelerators
C. H. Nam1),2), H. T. Kim1),3), V. B. Pathak1), K. H. Pae1), S. K. Lee1),3), J. H. Sung1),3), H. W. Lee1), J. H. Shin1), K.
Nakajima1)
1)Center for Relativistic Laser Sci., Inst. for Basic Sci. (IBS), Korea, 2)Dept. of Phys. and Photon Sci., GIST, Korea,
3)Advanced Photonics Res. Inst., GIST, Korea
(Invited) High Energy Photon and Charged Particle Sources with Relativistic Mirrors: Novel Results and
Perspectives
S. Bulanov
JAEA, Japan
(Invited) Tuning Laser Produced Electron-Positron Jets for Lab-Astrophysics Experiment
H. Chen1), F. Fiuza1), A. Hazi1), R. Heeter1), A. Kemp1), G. E. Kemp1), A. Link1), B. Pollock1), E. Marley1), S. R.
Nagel1), J. Park1), M. Schneider1), R. Shepherd1), R. Tommasini1), S. C. Wilks1), G. J. Williams1), D. Barnak2), P-Y.
Chang2), G. Fiksel2), V. Glebov2), D. D. Meyerhofer2), J. F. Myatt2), C. Stoeckel2), M. Nakai3), Y. Arikawa3), H.
Azechi3), S. Fujioka3), H. Hosoda3), S. Kojima3), N. Miyanaga3), T. Morita3), T. Moritaka3), T. Nagai3), T.
Namimoto3), H. Nishimura3), T. Ozaki3), Y. Sakawa3), H. Takabe3), Z. Zhang3)
1)Lawrence Livermore National Laboratory, USA, 2)LLE, University of Rochester, USA, 3)ILE, Osaka University,
Japan
----- Break / Move (17:30-18:00)-----
OPIC Banquet
30
Room 501+502
Thursday, April 23
HEDS4-1
15:15
9:00-9:05
Opening
Room 416&417
Opening Remarks
9:00
R. Kodama, Conference Chair of HEDS 2014
Osaka University, Japan
9:05-10:25
HEDS4-2
15:35
HEDS1: Quantum Beams Ion
Room 416&417
Chair: T. Hosokai, Osaka University, Japan
HEDS1-1
(Plenary) Latest Results on Plasma
9:05
Acceleration
Chan Joshi
University of California Los Angeles, USA
HEDS1-2
(Invited) The Present Status of the Laser9:35
drives Ion Acceleration Research at JAEA
Mamiko Nishiuchi
Japan Atomic Energy Agency, Japan
HEDS1-3
Ultra Intense Laser Driven Collision-less Shock,
10:05
Ion Acceleration, and Possible Applications
Kunioki Mima
GPI, Japan
----- Group Photo &Break (10:25-10:45) ----10:45-12:15 HEDS2:
Quantum Beams Electron Acceleration
Room 416&417
Chair: A. Zhidkov, Osaka University
HEDS2-1
(Invited) High-Energy Electron Generation by
10:45
a Density-Tapered Gas Cell and a 20 TW Laser
at GIST
Hyyong Suk
GIST, Korea
HEDS2-2
(Invited) Staging and high-energy laser guiding
11:15
to extend laser-plasma acceleration
Cameron Geddes
LBNL, USA
HEDS2-3
(Invited)
Staging
Laser
Wake-field
11:45
Acceleration with Plasma Micro-optics:
Towards Practical Laser-driven Accelerators
Tomonao Hosokai
Osaka University, Japan
----- Lunch (12:15-13:15) ----13:15-14:45
HEDS3: Quantum Beams Applications
Room 416&417
Chair: H. Suk, GIST, Korea
HEDS3-1
(Invited) RF Gun Based MeV Electron
13:15
Diffraction and Imaging
Jinfeng Yang
Osaka University, Japan
HEDS3-2
(Invited) A Small-scale Laser-driven Electron
13:45
Accelerator for Radiobiology Experiments at
ILIL-CNR
Luca Labate
INO, Italy
HEDS3-3
(Invited) Guidance and Transport of Laser14:15
Accelerated Electrons with a Thin Metal Wire
Shuji Sakabe
Kyoto University, Japan
----- Break (14:45-15:15) ----15:15-16:25 HEDS4: Radiation Sources I
Chair: A. Faenov, Osaka University, Japan
Room 416&417
31
HEDS4-3
16:05
High-Order Harmonics from Relativistic
Electron Spikes: Dependence on Parameters
Alexander S. Pirozhkov
Japan Atomic Energy Agency, Japan
(Invited) Enhancement of Laser-driven Betatron
Radiation
Liming Chen
Chinese Academy of Sciences, China
Effect of Axis Symmetric Laser Pulse on Laser
driven Plasma Accelerators
Naveen Pathak
Osaka University, Japan
----- Break (16:25-16:40) -----
16:40-17:40 HEDS5: Radiation Sources II
Room 416&417
Chair: K. Koyama, KEK, Japan
HEDS5-1
Experimental Observation of Ultra-intense Laser16:40
Driven Target Normal Sheath Radiation in the
Terahertz Region
Zhan Jin
Osaka University, Japan
HEDS5-2
Polarimetry for sub-GeV Gamma Rays with a PW17:00
Class Laser
Yoshihide Nakamiya
Kyoto University, Japan
HEDS5-3
Development of 100W Yb-fiber Laser System for
17:20
the Isotope-specific Nondestrutive Assay by Using
Intense Laser-ompton γ-rays
Michiaki Mori
Japan Atomic Energy Agency, Japan
Friday, April 24
9:00-10:20
HEDS6: High Field Physics I
Room 416&417
Chair: S. Sakabe, Kyoto University, Japan
HEDS6-1
(Plenary) Gain Dynamics of XFEL Pumped Hard
9:00
X-ray Lasers
Hitoki Yoneda
Inst. Laser Science, Univ. Electro-Comunicaton,
Japan
HEDS6-2
(Invited) Observation of Non-linear Processes in
9:30
Femtosecond Laser-driven Cluster-based Plasma
by High-resolution X-ray Spectroscopy
Anatoly Faenov
Osaka University, Japan
HEDS6-3
Behavior of Materials under Extreme High10:00
pressure Conditions
Norimasa Ozaki
Osaka University, Japan
----- Break (10:20-10:45) ----10:45-12:15 HEDS7: High Field Physics II
Room 416&417
Chair: N. Ozaki, Osaka University, Japan
HEDS7-1
(Invited) Terahertz Acoustics and Turbulent
10:45
Magnetic Fields in Hot, Dense Plasmas
Ravindra Kumar
Tata Institute, India
HEDS7-2
(Invited) Explore the Terapascal Pressure
11:15
Range of Tantalum along the Hugoniot
Bruno Albertazzi
Osaka University, Japan
HEDS7-3
(Invited) High Energy density Science Activity
11:45
at RRCAT, India
Prasad A. Naik
RRCAT, India
----- Lunch Break (12:15-13:00) -----
HEDSp8-15
13:00-14:45 HEDSp8 : Poster Session
Exhibition Hall C
Chair: H. Nakamura, Osaka Univ., Japan
HEDSp8-1
Fast Electron Collimation in ULTRA-intense
HEDSp8-16
Laser Interaction with Uniform Overdense
Plasma
Yuto Uematsu
Osaka University, Japan
HEDSp8-2
Efficient Electron Beam Production by Strongly
HEDSp8-17
Intensified Fields of Surface Wave Excitation
Yosuke Mishima
Osaka University, Japan
HEDSp8-3
Guidance of Electrons accelerated from a Foil
Target by an Intense Laser Pulse Using a Metal
HEDSp8-18
Wire
Kensuke Teramoto
Kyoto University, Japan
HEDSp8-4
Proton Acceleration Driven by a High-Intensity
HEDSp8-19
Laser Using a Thin-Foil Target
Akito Sagisaka
Japan Atomic Energy Agency, Japan
HEDSp8-5
Neutron Yield of 7Li(p,n)7Be Reaction with
HEDSp8-20
Laser Driven Protons
Koichi Ogura
Japan Atomic Energy Agency, Japan
HEDSp8-6
Current Status and the Future Plans of laser
Wakefield Acceleration at Osaka University
HEDSp8-21
Takamitsu Otsuka
Osaka University, Japan
HEDSp8-7
Effect of Frequency Blueshift on the Plasma
HEDSp8-22
Channel
Hideyuki Kotaki
Japan Atomic Energy Agency, Japan
HEDSp8-8
Ponderomotive Electron Acceleration in
HEDSp8-23
Vacuum Using Radially Polarized Laser Pulse
Shinichi Masuda
Osaka University, Japan
HEDSp8-24
HEDSp8-9
Controllable Self-injection of Electrons in
LWFA: Problems and Progress
Alexey Zhidkov
Osaka University, Japan
HEDSp8-25
HEDSp8-10 Staged Wakefield Acceleration Driven by
Coaxial Laser pulses with Different Focal
Lengths
Nobuhiko Nakanii
Osaka University, Japan
HEDSp8-26
HEDSp8-11 Measurement on Irradiation Dose and Pattern
of Pulsed Intense Relativistic Electron Beam
Produced by ETIGO-III
Isamu Minagawa
Nagaoka University of Technology, Japan
HEDSp8-27
HEDSp8-12 Study on Fiber Laser and Electron Beam
Source for Table-top Micro Beam Source
Hayato Okamoto
The University of Tokyo, Japan
HEDSp8-13 Design and Fabrication of Dielectric Accelerator HEDSp8-28
Driven by Laser with Oblique Incidence
Shohei Otsuki
The University of Tokyo, Japan
HEDSp8-14 Ultrafast Electron Diffraction with Electron Beam
32
Generated by LWFA
Naoki Takeguchi
Osaka University, Japan
A Study about Stable Transportation of Laser
Wakefield Acceleration's Electron Beam
Koki Osako
Osaka University, Japan
Observation of Space-time Curvature by
Acceleration Field produced by Ultra-high intense
laser
Masahiro Yano
Osaka University, Japan
Development of Compact Undulator for X-ray
FEL Light Using Laser Wakefield Accelerated
Electron Beams
Hirotaka Nakamura
Osaka University, Japan
Characterization of XFEL Beam Quality by LiF
Crystal Imaging Technique
Tatiana Pikuz
Osaka University, Japan
Pump Probe XRD Platform for Lattice Dyanmics
Study in XFEL Facility (SACLA)
Takeshi Matsuoka
Osaka University, Japan
Development
of
Dynamic
High-pressure
Diagnostics in HEDS Experimental Platform at
SACLA
Ricardo Arturo Ochante Muray
Osaka University, Japan
Study on the Phase transition dynamics of Quartz
Toyohito Nishikawa
Osaka University, Japan
XFEL Observation of Material Dynamics in Laser
Ablation
Yusuke Matsumura
Osaka University, Japan
Ion Acoustic Modes in Warm Dense Matter
Nicholas Hartley
Osaka University, Japan
Developments for high energy density science at
SACLA
Yuichi Inubushi
Japan Synchrotron Radiation Research Institute, Japan
Suppression of Liquid Metal Behaviors using
Super Sonic Gas Injection toward Intense X-ray
Source
Toru Sasaki
Nagaoka University of Technology, Japan
Emission of Parametric X-ray by Interaction
between Laser-plasma electrons and a Single
Crystal
Yukio Hayashi
Japan Atomic Energy Agency, Japan
Optical Parametric Chirped-pulse Amplifier
Pumped by the Stimulated Brillouin Scattering
Compressed Pulse
Keiichi Sueda
Osaka University, Japan
High Dynamic Range Multi-channel crossCorrelator for Single-shot Time Contrast
Measurement
Akira Kon
Japan Atomic Energy Agency, Japan
HEDSp8-29
HEDSp8-30
HEDSp8-31
HEDSp8-32
Characterization of THz Radiation from LaserProduced Plasma via 2D PIC Simulation
Masataka Hideta
Utsunomiya University, Japan
Generation of sub-Terahertz Radiation Using
the Dc to Ac Radiation Converter
Yusuke Hyuga
Utsunomiya University, Japan
A
Single-shot
Terahertz
Time-domain
Spectroscopy with Spatial Resolution for
Intense Laser System
Tianju Zhang
Osaka University, Japan
Tunable Terahertz Generation by Coherent
Cherenkov Radiation in Coaxial Waveguide
Satoshi Wakamatsu
Osaka University, Japan
----- Break (14:45-15:00) -----
15:00-16:20 HEDS9: High Field Physics I Room 416&417
Chair: S.V Bulanov, JAEA, Japan
HEDS9-1
Phase Space Distribution of Electron Beam with
15:00
Longitudinal Bunch Compression in Compact
Simulator for Heavy Ion Inertial Fusion
Takashi Kikuchi
Nagaoka University of Technology, Japan
HEDS9-2
(Invited) Betatron Radiation from Laser
15:20
Wakefields as a Compact Source for Imaging in
Medicine and High-energy Density Science
Zulfikar Najmudin
Imperial College London, UK
HEDS9-3
(Invited) J-KAREN-P Upgrade and Perspective
15:50
on High Field Sciences
Masaki Kando
Japan Atomic Energy Agency, Japan
----- Break (16:20-16:35) ----16:35-17:35
HEDS10: High Field Physics II
Room 416&417
Chair: M. Kando, JAEA, Japan
HEDS10-1
(Invited) Test Facility for Novel Accelerator
16:35
after Burner Experiment Using Existing 7
GeV Conventional Accelerator
Mitsuhiro Yoshida
KEK, Japan
HEDS10-2
(Invited)
ImPACT
Program
toward
17:05
Miniaturization of XFELs by means of LWFA
of Electrons
Yuji Sano
JST, Japan
17:35-17:50 Closing
Closing Remarks
17:35
S.V. Bulanov
JAEA, Japan
Room 416&417
33
H. Murata, Y. Okamura, and K. Yamamoto
Osaka Univ., Japan
LDC2-2
Temperature Insensitive Green Frequency Comb as
11:05
Despeckling Sources
Z.-Y. Yang1), J.-H. Hung1), K.-H. Chang1), C.-M. Lai2), N.
E. Yu3), A. Boudrioua4), A. H. Kung5),6), and L.-H. Peng1)
1)National Taiwan Uni., Taiwan (R.O.C.), 2)Ming Chuan
Univ., Taiwan (R.O.C.), 3)Gwangju Inst. of Sci. and
Tech., South Korea, 4)Univ. Paris, France 5)Academia
Sinica, Taiwan (R.O.C.), 6)National Tsing Hua Univ.,
Taiwan (R.O.C.)
LDC2-3
De-speckle Effects Resulted by Wavelength
11:20
Multiplexing of Intra-Cavity Solid-State Green Lasers
T. Yanagisawa, F. Shohda, Y. Akino, K. Ikeda, Z. Shen, S.
Yamamoto, M. Futami, T. Seki, T. Yoshihara and Y.
Hirano
Mitsubishi Electric Corp., Japan
LDC2-4
Speckle Control of Red Narrow Stripe Laser Diode by
11:35
Driving Current Modulation
T. Nishida1),2), T. Yagi1), Y. Fujiwara2), A. Koizumi2), and
M. Takemi1)
1)Mitsubishi Electric Corp., Japan, 2)Osaka Univ., Japan
LDC2-5
Designable Visible Light Source by Nonlinear
11:50
Waveguide
H. H. Lim, S. Kurimura, and K. Fujii
Nat'l Inst. for Materials Sci., Japan
----- Lunch Break (12:05-13:30) ----13:30-15:30 LDC3: Poster Session
Exhibition Hall C
LDCp3-1
Sharp Resonances in One-Dimensional Thue-Morse
Superlattices
Y. H. Cheng, C. W. Tsao, R. Z. Qiu, C. H. Chen, and W.
J. Hsueh
National Taiwan Univ., Taiwan (R.O.C.)
LDCp3-2
Fabrication and Characteristics of Wavelength
Converter Films based on the Quantum Dots
Dispersed Photoresist for the Lighting and Display
H.-J. Kim, M.-H. Shin, B.-S. Song, H.-G. Hong, and Y.-J.
Kim
Yonsei Univ., Korea
LDCp3-3
InGaN-Based Green LEDs on the Flexible Polyimide
Substrates using Laser Lift-off and Glue-Bonding
Techniques
R.-H. Huang, G. C. Liu, C.-H. Tien, and D.-S. Wuu
National Chung Hsing Univ., Taiwan (R.O.C.)
LDCp3-4
New Phosphor EPOCH of Composite Structure
Material for High Power LED and LD
M. Matsukura, K. Nakagome, Y. Anzai, F. Nitanda, and
Y. Furukawa
OXIDE Corp., Japan
LDCp3-5
Effect of Laser Read and Write Power on Long-term
Data Stability using BD-R TL Media
S.-J. Park1), K.-Y. Lee1), D.-H. Kim1), Y. I. Kim2), K.-Y.
Bahng2), and Y.-J. Kim1)
1)Yonsei Univ., Korea, 2)Hitachi-LG Data Storage Korea
Inc., Korea
LDCp3-6
A Study of Optical Design of Automotive Head Light
with Laser Source
Y.-C. Fang
National Kaohsiung First Univ. of Sci. and Tech., Taiwan
(R.O.C.)
15:30-17:00 LDC4: Speckle control optics
Room 301
Co-Chairs: H. Murata, Program Committee Member, Osaka Univ.,
Japan
Co-Chairs: T. Yanagisawa, Mitsubishi Electric Corp., Japan
LDC4-1
(Invited) Speckle Contrast Reduction in Display
15:30
Systems: A Simple Model
D. P. Kelly1), T. Meinecke1), C. Guo2), C. Schierz1), and J.
T. Sheridan2)
The 4th Laser Display and Lighting Conference
LDC2015
Wednesday, April 22
13:40-17:30 LEDIA&LDC Joint Sessions
Room 503
“Advanced GaN-based Light-Emitting Devices and Their
Applications”
13:40-14:10 Opening Remarks
13:40
GaN Light Emitting Devices (LED and LD)
H. Amano
Nagoya Univ., LEDIA Conf. Chair, Japan
13:55
Laser Display and Lighting
K. Kuroda
Utsunomiya Univ., LDC Conf. Chair, Japan
14:10-17:30 LD&LE1: LEDIA&LDC Joint Session
Co-Chairs: S. Kurimura, Program Committee Co-Chairs of
LDC’15, Nat'l Inst. for Materials Sci., Japan
Co-Chairs: T. Takeuchi, Program Committee Chair of LEDIA’15,
Meijo Univ., Japan
LD&LE1-1 (Invited) Blue Laser Diode Technology and
14:10
Applications
U. Steegmueller
Osram Opto Semiconductors, Germany
LD&LE1-2 (Invited) Watt-level Green/Blue Laser Diodes
S. Masui
14:40
Nichia Corp., Japan
LD&LE1-3 (Invited) Progress of LED Technologies and Their
15:10
Application in Solid State Lighting
S. Watanabe
Philips Lumileds Lighting, Japan
----- Break (15:40-16:00) ----LD&LE1-4 (Invited) Growth of Bulk GaN Crystal by Na Flux
16:00
and OVPE Method
Y. Mori, M. Imade, M. Maruyama, and M. Yoshimura
Osaka Univ., Japan
LD&LE1-5 (Invited) High Directional LED Lighting for
16:30
Forming Pattern, HOLOLIGHT : Its Business
Developments and Prospects
T. Ikeda
Pi Photonics, Japan
LD&LE1-6 (Invited) 3D and Wearable Laser Displays
17:00
(Tentative) / LDC Plenary
H. Urey
Koç University, Turkey
Thursday, April 23
9:00-10:20 LDC1: Plenary Session
Room 301
Co-Chairs: C. Q. Xu, Program Committee Co-Chairs, McMaster
Univ., Canada
Co-Chairs: K. Yamamoto, Steering Committee Chair, Osaka Univ.,
Japan
LDC1-1
Retina Imaging Laser Eyewear
M. Sugawara1), M. Suzuki2), and Y. Arakawa2)
9:00
1)QDLaser, Japan, 2)The Univ. of Tokyo, Japan
LDC1-2
Latest Developments in Laser Projector (Tentative)
M. Hanazawa
9:40
Christie Digital Systems, Japan
----- Break (10:20-10:35) ----10:35-12:05 LDC2: Speckle-controlled light source
Room 301
Co-Chairs: F. Shevlin, DYOPTYKA, Ireland
Co-Chairs: M. Ventura, Optotune, Switzerland
LDC2-1
(Invited) Speckle Control Using RF Signal
10:35
Superposition to Laser Diode
34
1)Technische
LDC4-2
16:00
LDC4-3
16:30
LDC4-4
16:45
Univ. at Ilmenau, Germany, 2)Univ. College
Dublin, Ireland
(Invited) Compact, Reliable Speckle Reduction with
Oscillating Diffusers (Tentative)
M. Ventura
Optotune, Switzerland
Beam Quality-Preserving Speckle Reduction for
Scanned Laser Displays
F. Shevlin
DYOPTYKA, Ireland
Angular Dependence of Speckle Contrast of Multimode Fiber Output Coupled with Multiple Blue Laser
Diodes
J. Kinoshita1), H. Aizawa1), A. Takamori1), K.
Yamamoto1), H. Murata1), and K. Tojo2)
1)Osaka Univ., Japan, 2)Shimadzu Corp., Japan
14:00-15:00
-----Lunch Break (12:30-14:00) ----LDC7: Standardization and measurement
Room 301
Co-Chairs: H. Urey, Koç Univ., Turkey
Co-Chairs: M. Ide, Program Committee Member, Magic Leap Inc.,
US
LDC7-1
(Invited) International Standardization of Speckles
14:00
for Laser Display Devices
J. Kinoshita
Osaka Univ., Japan
LDC7-2
Influence of Camera on Speckle Contrast
14:30
Measurement
Q. Ma and C. Xu
McMaster Univ., Canada
----- Break (14:45-15:00) ----15:00-16:15 LDC8: Advanced Technology for Laser Displays
Room 301
Co-Chairs: J. Kwon, Program Committee Member, LG Electronics,
Korea
Co-Chairs: T. Yagi, Program Committee Co-Chairs, Mitsubishi
Electric Corp., Japan
LDC8-1
(Invited) Design and Application of Optical
15:00
Camouflage
M. Inami
Keio Univ., Japan
LDC8-2
(Invited) Speckle Reduction Methods in Laser Based
15:30
Picture Projectors (Tentative)
X. Chen
Buskerud and Vestfold University College, Norway
LDC8-3
GPU Accelerated Pre-calculation Algorithm for 3D
16:00
Holographic Display
F. Yang, and T. Wilkinson
Univ. of Cambridge, U.K.
16:15-16:35 LDC9: Postdeadline session
Room 301
Chair: K. Kuroda, Conference Chair, Utsunomiya Univ., Japan
Friday, April 24
9:30-10:30 LDC5: Advanced Lighting
Room 301
Co-Chairs: V. Bhatia, Program Committee Member, Corning
Incorp., U.S.A
Co-Chairs: J. Kinoshita, Steering Committee Member, Osaka Univ.,
Japan
LDC5-1
(Invited) Expectations for the Visible Lasers in
9:30
Automotive (Tentative)
R. Chijimatsu
Honda, Japan
LDC5-2
(Invited) Fiber Lighting (Tentative)
A. Bauco
10:00
Corning, US
----- Break (10:30-10:45) ----10:45-12:30 LDC6: Visible light source
Room 301
Co-Chairs: L.-H. Peng, Program Committee Member, National
Taiwan Univ., Taiwan (R.O.C)
Co-Chairs: T. Miyamoto, Program Committee Member, Tokyo Inst.
of Technology, Japan
LDC6-1
(Invited) High-Luminance Phosphor-Conversion
10:45
White Light Source with Blue-Violet Laser-Diodes
K. Morimoto, H. Kasugai, K. Yamanaka, T. Katayama, N.
Suzuki, Y. Nagasaki, K. Okuyama, and S. Shiraishi
Panasonic Automotive & Industrial Systems Company,
Japan
LDC6-2
A Reflection-Type White Light Source Using Blue
11:15
Laser Diodes with High Luminance of 1500 cd/mm2
Y. Maemura, T. Sakaue, Y. Kawaguchi, Y. Takahira, K.
Takahashi, and S. Ito
SHARP Corp., Japan
LDC6-3
Performance Enhancement of Flip-Chip White LEDs
11:30
with Conformal Phosphor Structure Fabricated by
Model Conformal Coating
H.-Y. Jiang, S.-L. Ou, and R.-H. Horng
National Chung Hsing Univ., Taiwan (R.O.C)
LDC6-4
Highly Reliable Operation of Triple Stripe Red Broad
11:45
Area Laser Diode
R Wakamatsu, K. Kuramoto, M. Kusunoki, M.
Miyashita, K. Mori, and T. Yagi
Mitsubishi Electric Corp., Japan
LDC6-5
Watt-Level Red-Emitting Diode Lasers and Modules
12:00
for Display Applications
K. Paschke, G. Blume, D. Feise, J. Pohl, and B. Sumpf
Ferdinand-Braun-Inst., Germany
LDC6-6
Miniaturized 532 nm Green Laser Module with a
12:15
Power of More Than 900 mW for Next Generation
Holographic Displays
J. Hofmann, G. Blume, B. Eppich, D. Feise, S.
Kreutzmann, A. Sahm, and K. Paschke
Ferdinand-Braun-Inst., Germany
16:35-17:00 Award Ceremony & Closing Remark Room 301
Chair: S. Kurimura, Program Committee Co-Chairs of LDC’ 15,
Nat'l Inst. for Materials Sci., Japan
Award Ceremony
S. Kurimura
16:35
Nat'l Inst. for Materials Sci., Japan
T. Yagi
Mitsubishi Electric Corp., Japan
C. Q. Xu
McMaster Univ., Canada
Closing Remarks
S. Kurimura,
16:50
Nat'l Inst. for Materials Sci., Japan
T. Yagi
Mitsubishi Electric Corp., Japan
C. Q. Xu
McMaster Univ., Canada
35
The 3rd International Conference on
Light-Emitting Devices and Their Industrial
Applications ’15
T. Yamaguchi, Program Committee Member,
Kogakuin Univ., Japan
H. Murakami, Program Committee Member,
Tokyo Univ. of Agri. & Tech., Japan
R. Togashi, Program Committee Member,
Tokyo Univ. of Agri. & Tech., Japan
LEDIA ’15
Wednesday, April 22
----- Break (10:30-11:00)----13:40-17:30 LEDIA&LDC Joint Sessions
Room 503
“Advanced GaN-based Light-Emitting Devices and Their
Applications”
13:40-14:10
13:40
13:55
14:10-17:30
Opening Remarks
GaN Light Emitting Devices (LED and LD)
H. Amano, Conference Chair of LEDIA’ 15
Nagoya Univ., Japan
Laser Display and Lighting
K. Kuroda, Conference Chair of LDC’ 15
Utsunomiya Univ., Japan
LD&LE1-2
14:40
LD&LE1-3
15:10
LD&LE1-5
16:30
LD&LE1-6
17:00
(Invited) Blue Laser Diode Technology and
Applications
U. Steegmueller
Osram Opto Semiconductors, Germany
(Invited) Watt-level Green/Blue Laser Diodes
S. Masui
Nichia Corp., Japan
(Invited) Progress of LED Technologies and
Their Application in Solid State Lighting
S. Watanabe
Philips Lumileds Lighting, U.S.A.
LEDp2-1
The Development of the Substrate Material of
the Nitride Semiconductor LED
Y. J. Sun and G.Y. Zhang
Peking Univ., China
Examination of the Initial Layer for GaN
Double Polarity Selective Area Growth by
Using MOVPE
N. Osumi, K. Kuze, Y. Inoue, and T. Nakano
Shizuoka Univ., Japan
Growth of -c-GaN at High Temperature by
OVPE
Y. Taniyama 1), H. Takatsu 1), M. Juta 1), T. Sumi
1), A. Kitamoto 1), M. Imade 1), M. Yoshimura 1),
M. Isemura 2), and Y. Mori 1)
1) Osaka Univ., Japan, 2) Itochu Plastics Inc.,
Japan
The Dependence of GaN Surface Morphology
on Carbon Concentration Using a High Ga
Composition Na Flux
S. Ogawa, M. Imanishi, K. Murakami, H.
Imabayashi, H. Takazawa, Y. Todoroki, D.
Matsuo, M. Maruyama, M. Imade, M.
Yoshimura, and Y. Mori
Osaka Univ., Japan
MOVPE Growth of GaN onto PLD-Grown
AlN Interlayer on GaN Templates
J. Yoo, K. Shojiki, T. Tanikawa, S. Kuboya, T.
Hanada, R. Katayama, and T. Matsuoka
Tohoku Univ., Japan
Growth of GaN on r-Plane Sapphire Substrate
by Tri-Halide Vapor Phase Epitaxy
A. Shiono, N. Takekawa, H. Murakami, Y.
Kumagai, and A. Koukitu
Tokyo Univ. of Agri. & Tech., Japan
Control of a Growth Habit in the Na-Flux
Coalescence Growth Technique
M. Imade, D. Matsuo, Y. Todoroki, K. Nakamura,
K. Murakami, M. Imanishi, M. Honjo, H.
Imabayashi, H. Takazawa, Y. Yamada, M.
Maruyama, M. Yoshimura, and Y. Mori
Osaka Univ., Japan
Strong Composition Dependence in AlGaN
Grown on Multi-Faceted GaN NanowireBased Templates – a Building Block Towards
the Realization of Nanostructure UV-LEDs
D. Lindgren, Z. Bi, M. Khalilian, K. Storm, B.
Monemar, A. Gustafsson, L. Samuelson, and B. J.
Ohlsson
Lund Univ., Sweden
LEDp2-3
LEDp2-4
LEDp2-5
(Invited) Growth of Bulk GaN Crystal by Na
Flux and OVPE Method
Y. Mori
Osaka Univ., Japan
(Invited) High Directional LED Lighting for
Forming Pattern, HOLOLIGHT : Its Business
Developments and Prospects
T. Ikeda
Pi Photonics, Japan
(Invited) 3D and Wearable Laser Displays
(Tentative) / LDC Plenary
H. Urey
Koç Univ., Turkey
Thursday, April 23
9:00-12:30
LEDp2: Poster Session
LD&LE1: LEDIA&LDC Joint Session
----- Break (15:40-16:00)----LD&LE1-4
16:00
13:30-15:30
LEDp2-2
Co-Chairs: S. Kurimura, Program Committee Co-Chairs of
LDC’15, Nat'l Inst. for Materials Sci., Japan
T. Takeuchi, Program Committee Chair of LEDIA’15, Meijo
Univ., Japan
LD&LE1-1
14:10
----- Lunch Break (12:30-13:30)-----
LEDp2-6
LEDp2-7
LEDp2-8
LEDp2: Short Presentations for Poster Session
Room 411, 412
Chair: Y. Honda, Program Committee Member,
Nagoya Univ., Japan
36
Exhibition Hall C
LEDp2-9
LEDp2-10
Smooth n-Type AlGaN Epitaxial Layers
Grown on a Sapphire Substrate for 320 nm
Ultraviolet Light-Emitting Diodes
K. K. Kang, J. Jin, Y. J. Park, M. Han, J. H.
Hyung, B. D. Ryu, K. B. Ko, J. Cho, and C. H.
Hong
Chonbuk National Univ., Korea
Electrical Properties of High Carrier
Concentration n-Type AlGaN
K. Takeda 1), K. Mori 1), T. Kusafuka 1), M. Iwaya
1), T. Takeuchi 1), S. Kamiyama 1), and I. Akasaki
1,2)
LEDp2-19
LEDp2-20
1)
LEDp2-11
LEDp2-12
LEDp2-13
LEDp2-14
LEDp2-15
LEDp2-16
LEDp2-17
LEDp2-18
Meijo Univ., Japan, 2) Akasaki Research
Center, Japan
Correlation between Crystal Qualities and
Electrical Properties in Si-Doped Al0.6Ga0.4N
T. Yasuda 1), S. Katsuno 1), T. Takeuchi 1), M.
Iwaya 1), S. Kamiyama 1), I. Akasaki 1,2), and H.
Amano 2,3)
1) Meijo Univ., Japan, 2) Akasaki Research
Center, Japan, 3) Nagoya Univ., Japan
Annealing Effects on the Microstructure of
Aluminium Nitride Buffer Layer MOVPEGrown on Sapphire Substrate
J. Kaur 1), N. Kuwano 1), J. Fukuda 2), Y. Soejima
2), M. Mitsuhara 2), S. Suzuki 3), H. Miyake 3), K.
Hiramatsu 3), and H. Fukuyama 4)
1) Univ. Tech. Malaysia, Malaysia, 2) Kyushu
Univ., Japan, 3) Mie Univ., Japan, 4) Tohoku
Univ., Japan
AlN Epitaxial Growth on Sapphire with an
Intermediate Layer
S. Katsuno 1), T. Yasude 1), M. Iwaya 1), T.
Takeuchi 1), S. Kamiyama 1), I. Akasaki 1,2), and
H. Amano 2,3)
1) Meijo Univ., Japan, 2) Akasaki Research
Center, Japan, 3) Nagoya Univ., Japan
AlN Growth on Sputtering AlN Template
Substrate by Hydride Vapor Phase Epitaxy
D. Yasui 1), H. Miyake 1), K. Hiramatsu, 1), M.
Iwaya 2), I. Akasaki 2),and H. Amano 3)
1) Mie Univ., Japan, 2) Meijo Univ., Japan, 3)
Nagoya Univ., Japan
Calculation of Thermochemical Data for the
Growth of III-Nitrides by Vapor Phase
Epitaxy
N. Takekawa, H. Murakami, Y. Kumagai, and A.
Koukitu
Tokyo Univ. of Agri. & Tech., Japan
MOVPE Growth of AlNSb Alloys
K. Suzuki 1), D. Komori 1), H. Sasajima 1), K.
Takarabe 1), T. Takeuchi 1), M. Iwaya 1), S.
Kamiyama 1), and I. Akasaki 1,2)
1) Meijo Univ., Japan, 2) Akasaki Research
Center, Japan
Carrier Gas Dependence on GaNSb MOVPE
Growth
D. Komori 1), H. Sasajima 1), K. Takarabe 1), K.
Suzuki 1), T. Takeuchi 1), S. Kamiyama 1), M.
Iwaya 1), and I. Akasaki 1,2)
1) Meijo Univ., Japan, 2) Akasaki Research
Center, Japan
Aluminum Growth on Sapphire Substrate
with Surface Nitridation by RF-MBE
37
LEDp2-21
LEDp2-22
LEDp2-23
LEDp2-24
LEDp2-25
LEDp2-26
LEDp2-27
Y. Hoshikawa 1), S. Osawa 1), Y. Matsumoto 1),
T. Yamaguchi 1), T. Onuma 1,2), and T. Honda 1)
1) Kogakuin Univ., Japan, 2) Tokyo National
College of Technology, Japan
Electrical Properties of GaNSb Grown at Low
Temperatures
K. Takarabe 1), D. Komori 1), K. Suzuki 1), T.
Takeuchi 1), M. Iwaya 1), S. Kamiyama 1), and I.
Akasaki 1,2)
1) Meijo Univ., Japan, 2) Akasaki Research
Center, Japan
Polarized
Ultraviolet
Emission
from
Individual Horizontal ZnO Microrods/p-GaN
Light-Emitting Diode with WhisperingGallery- Mode Microcavity
K. H. Lin, C. F. Du, and H. C. Hsu
National Cheng Kung Univ., Taiwan
Enhanced Ultraviolet Photoluminescence and
Electroluminescence
from
ZnO
Microstructures Assisted by Surface Plasmon
of Au Nanoparticles
T. C. Chiang 1), C. Y. Chiu 1), T. F. Dai 1), Y. J.
Hung 2), and H. C. Hsu 1)
1) National Cheng Kung Univ., Taiwan, 2)
National Sun Yat-sen Univ., Taiwan
Homoepitaxial Growth of Nitrogen Doped
ZnO Thin Layers by Atmospheric Pressure
CVD Using NO
M. Hayashida 1), R. Asakawa 1), A. Hiroe 2), S. Y.
Kang 2), R. Togashi 1), H. Murakami 1), Y.
Kashiwagi 2), Y. Kumagai 1), and A. Koukitu 1)
1) Tokyo Univ. of Agri. & Tech., Japan, 2) Tokyo
Electron Ltd., Japan
Thermal Stability of Group-III Oxides in
Flows of H2 and N2
Y. Kisanuki 1), C. Eguchi 1), K. Nomura 1), K.
Goto 2), Q. T. Thieu 1), R. Togashi 1), H. Murakami
1), Y. Kumagai 1), A. Kuramata 2), B. Monemar 1,3),
and A. Koukitu 1)
1) Tokyo Univ. of Agri. & Tech., Japan, 2) Tamura
Corp., Japan, 3) Linköping Univ., Sweden
Fabrication of ZnO Thin Film by Mist CVD
Using Molecular Precursor Solution
R. Goto, H. Shibuki, K. Tanuma, T. Hatakeyama,
H. Nagai, T. Yamaguchi, M. Sato, and T. Honda
Kogakuin Univ., Japan
Fundamental Study on Growth of α-(AlGa)2O3
Alloys by Mist CVD ―A Study on Growth
Rate of α-Al2O3 Compared with α-Ga2O3―
M. Takahashi 1), T. Hatakeyama 1), T. Onuma 1,2),
T. Yamaguchi 1), and T. Honda 1)
1) Kogakuin Univ., Japan, 2) Tokyo National
College of Technology, Japan
Comparison of Polar c-Plane and Nonpolar
m-Plane InGaN/GaN Multiple Quantum Wells
Y. S. You 1), J. D. Lai 1), Y. E. Huang 1), S. W.
Feng 1), C. H. Chen 2), and K. Y. Kou 3)
1) National Univ. of Kaohsiung, Taiwan, 2)
Industrial Technology Research Institute, Taiwan,
3) Central Police Univ., Taiwan
Quantum-Confined Stark Effect on Carrier
Transport and Recombination Dynamics of
N-Polar InGaN/GaN MQW LEDs
Y. S. You 1), P. H. Liao 1), J. D. Lai 1), S. W.
LEDp2-28
LEDp2-29
LEDp2-30
LEDp2-31
LEDp2-32
LEDp2-33
LEDp2-34
LEDp2-35
LEDp2-36
LEDp2-37
Feng 1), J. Han 2), F. W. Yang 3), and K. Y. Kou 4)
1) National Univ. of Kaohsiung, Taiwan, 2) Yale
Univ., U.S.A., 3) Southern Taiwan Univ. of
Science and Technology, Taiwan, 4) Central
Police Univ., Taiwan
A Light Emitting Diode on Designed Patterned
Substrate with High Reflection
Y. P. Lan 1), K. P. Sou 1), C. Y. Lee 1), and C. Y.
Chang 1,2)
1) National Chiao Tung Univ., Taiwan, 2)
Academia Sinica, Taiwan
LED
Internal
Quantum
Efficiency
Enhancement
by
Current-Injection
Optimization
D. C. Nguyen 1), D. Vaufrey 1), and M. Leroux 2)
1) Univ. Grenoble Alpes, France, 2) CNRS, France
Characterization of Light-Emitting Diode
Efficiency by Biased Photocurrent and
Photoluminescence Measurement
S. Usami 1,2), T. Mitsunari 1,2), Y. Honda 1,2), and
H. Amano 1,2)
1) Nagoya Univ., Japan, 2) Akasaki Research
Center, Japan
Theoretical Investigation of Metal Mesh
Transparent Conductive Layers with a
Graphene Layer for Near Ultra-Violet
Light-Emitting Diodes
S. B. Choi, J. H. Min, and D. S. Lee
Gwangju Institute of Science and Technology,
Korea
Luminescence
Enhancement
of
Green
InGaN/GaN Nanopillar LEDs
Y. Ou 1,2), K. Wu 1), D. Iida 3), A. Fadil 1), and H.
Ou 1)
1) Technical Univ. of Denmark, Denmark, 2) Light
Extraction Aps, Denmark, 3) Tokyo Univ. of
Science, Japan
Low-Cost Fabrication of Warm-White LEDs
Using Composite Silica Photonic Crystals
C. F. Lai 1), H. C. Hsu 1), Y. C. Lee 2), and T. L.
Tsai 2)
1) Feng Chia Univ., Taiwan, 2) Lextar Electronics
Corp., Taiwan
Metal Nanoparticles and Patterned Dielectric
on InGaN/GaN LEDs: Combining Plasmonic
and Light Extraction Enhancement
A. Fadil 1), Y. Ou 1,2), D. Iida 3), and H. Ou 1)
1) Technical Univ. of Denmark, Denmark, 2) Light
Extraction Aps, Denmark, 3) Tokyo Univ. of
Science, Japan
Design and Fabrication of Plasmonic Spectral
Filter for Visible Light Communication with
White LED
K. Murai 1), S. Mochizuki 1), K. Hattori 2), M.
Shiraishi 2), Y. Oshikane 2), and M. Nakano 2)
1) AIST, Japan, 2) Osaka Univ., Japan
Single Nanowire LEDs — Electrical and
Electro-Optical Characterization Methods
K. Storm, D. Lindgren, and L. Samuelson
Lund Univ., Sweden
Plasmonic Light-Emitting Diodes with Thin
p-Type Layer and Localized-Ag Layer
Embedded by ITO
N. Okada 1), T. Tsukada 1), K. Tadatomo 1), and K.
38
LEDp2-38
LEDp2-39
LEDp2-40
LEDp2-41
LEDp2-42
LEDp2-43
LEDp2-44
LEDp2-45
Okamoto 2)
1) Yamaguchi Univ., Japan, 2) Kyushu Univ., Japan
HVPE and VLS-HVPE Synthesis of GaN
Nanowires
K. Lekhal 1), T. Mitsunari 1), R. Kizu 1), S. Y. Bae
1), Y. Honda 1), and H. Amano 1,2)
1) Nagoya Univ., Japan, 2) Akasaki Research
Center, Japan
Growth of Highly Ordered GaN Nanorod
Light-Emitting Didoes on Si-Based AlN
Template for Epitaxial Transfer
S. Y. Bae 1), B. O. Jung 1), H. J. Lee 1), K. Lekhal
1), D. S. Lee 2), Y. Honda 1,3), and H. Amano 1,3)
1) Nagoya Univ., Japan, 2) Gwangju Institute of
Science and Technology, Korea, 3) Akasaki
Research Center, Japan
Improvement of Light Extraction Efficiency
by Length of ZnO Nanorods Grown on
p-Electrode of GaN-Based LEDs
H. Cho, J. Y. Beak, D. J. Ki, K. Ha, and K. K.
Kim
Korea Polytechnic Univ., Korea
SiO2/ITO
Multilayer
Patterned
by
Self-assembled Polystyrene Nanoparticle for
Improvement Light Extraction Efficiency of
LEDs
S. C. Shin, S. Kim, J. Y. Jeong, and K. K. Kim
Korea Polytechnic Univ., Korea
Impact of Top Gold Metallization on Thermal
Resistance
–
Universal
Method
of
Optimization of p-up Mounted (Al, In)GaN
Laser Diode
S. Stańczyk 1), M. Kuc 2), M. Sarzynski 1,3), A.
Kafar 1), A. Nowakowska-Siwińska 3), R. Sarzała
2), T. Suski, and P. Perlin 1,3)
1) Institute of High Pressure Physics, PAS,
Poland, 2) Lodz Univ. of Technology, Poland, 3)
TopGaN Sp. z o.o., Poland
Characteristics of UV LEDs Grown by HVPE
A. Y. Polyakov 1,2), J. H. Yun 2), A. S. Usikov 3,4),
E. B. Yakimov 1,5), N. B. Smirnov 1,6), K. D.
Shcherbachev 1), H. Helava 3), Y. N. Makarov 3),
N. M. Shmidt 7), S. Y. Kurin 8), O. I. Rabinovich
2), S. I. Didenko 2), B. P. Papchenko 4), and I. H.
Lee 2)
1) National Univ. of Science and Technology
MISiS, Russia, 2) Chonbuk National Univ.,
Korea, 3) Nitride Crystals, Inc., U.S.A., 4)
Saint-Petersburg National Research Univ. of
Information Technologies, Russia, 5) Institute of
Microelectronics Technology and High Purity
Materials Russian Academy of Science, Russia, 6)
Institute of Rare Metals, Russia, 7) Ioffe Physical
Technical Institute RAS, Russia, 8) Nitride
Crystals Ltd., Russia
Enhanced Light Extraction and Electrical
Properties of Deep-Ultraviolet Light-Emitting
Diodes by Utilizing Transverse-MagneticDominant Emission
J. W. Lee, J. H. Park, D. Y. Kim, and J. K. Kim
POSTECH, Korea
Contact Characteristics of V-Based Electrode
for High AlN Molar Fraction n-AlGaN
K. Mori 1), K. Takeda 1), T. Kusafuka 1), M. Iwaya
1),
LEDp2-46
T. Takeuchi 1), S. Kamiyama 1), I. Akasaki 1,2),
and H. Amano 2,3)
1) Meijo Univ., Japan, 2) Akasaki Research
Center, Japan, 3) Nagoya Univ., Japan
Characterization of Radiation Detection for
GaN
M. Sugiura 1), M. Kushimoto 2), T. Mitsunari 2),
K Yamashita 2), Y. Honda 2), H. Amano 2,3), Y.
Inoue 1), H. Mimura 1), T. Aoki 1), and T. Nakano
Solvent Vapour, Mechanical, and Thermal
Stimuli
Y. Zhang 1,2), H. Huang 1), J. Sun 2), and C. Zhang
2)
1)
LEDp2-56
1)
Shizuoka Univ., Japan, 2) Nagoya Univ., Japan,
Akasaki Research Center, Japan
Nitride-Based Tunnel Junctions towards Deep
UV-LEDs
D. Takasuka 1), D. Minamikawa 1), M. Ino 1), T.
Takeuchi 1), M. Iwaya 1), S. Kamiyama 1), H.
Amano 2), and I. Akasaki 1,3)
1) Meijo Univ., Japan, 2) Nagoya Univ., Japan, 3)
Akasaki Research Center, Japan
Optimization of Periodic Gain Structures
toward Blue VCSELs
K. Matsui 1), D. Komori 1), K. Horikawa 1), T.
Takeuchi 1), S. Kamiyama 1), M. Iwaya 1), and I.
Akasaki 1,2)
1) Meijo Univ., Japan, 2) Akasaki Research
Center, Japan.
Conductive n-Type AlInN/GaN Distributed
Bragg Reflectors
K. Ikeyama 1), Y. Kozuka 1), T. Yasuda 1), T.
Takeuchi 1), S. Kamiyama 1), M. Iwaya 1), and I.
Akasaki 1,2)
1) Meijo Univ., Japan, 2) Akasaki Research
Center, Japan.
Enhancement of Radiant Flux and Color
Uniformity of White LEDs Based on YAG:Ce
and CdSe/ZnS Quantum Dot Phosphor Using
Spray Coating Process
B. S. Song, M. H. Shin, H. J. Kim, H. G. Hong,
and Y. J. Kim
Yonsei Univ., Korea
Graded-Refractive-Index
Conformal
Phosphor for White LED Packaging by
Dispensing Sedimentation Technology
P. C. Wang 1), C. L. Lin 2), Y. K. Su 1,2), G. S.
Huang 2), W. S. Wang 2), and B. R. Chen 2)
1) National Cheng Kung Univ., Taiwan, 2)
Kun-Shan Univ., Taiwan
Surface Distribution of White LEDs by
Electrophoretic Deposition of Phosphor
C. C. Yang 1), C. L. Lin 2), and Y. K. Su 1,2)
1) National Cheng Kung Univ., Taiwan, 2)
Kun-Shan Univ., Taiwan
Donor-Acceptor
Cross-Conjugated
Luminophore Exhibiting Mechanochromic
and Electrochromic Properties
J. Sun and C. Zhang
Zhejiang Univ. of Technology, China
Conducting Polymer-Based Electrochromic
Materials and Devices
X. J. Lv and C. Zhang
Zhejiang Univ. of Technology, China
Polymorphic
Crystals
and
Their
Luminescence
Switching
of
Triphenylacrylonitrile
Derivatives
upon
Huzhou Univ., China, 2) Zhejiang Univ. of
Technology, China
Practical Audio Amplifiers Consist of LEDs
and Silicon Solar Cells
K. Okamoto and N. Kuroda
Kagawa Univ., Japan
1)
3)
LEDp2-47
LEDp2-48
LEDp2-49
LEDp2-50
LEDp2-51
LEDp2-52
LEDp2-53
LEDp2-54
LEDp2-55
39
----- Break (15:30-16:00)-----
16:00-16:30
LED3: Tutorial 1
Room 411, 412
Chair: H. Fujioka, The Univ. of Tokyo, Japan
T. Honda, Steering Committee Chair, Kogakuin Univ., Japan
LED3-1
(Invited) History of GaN LEDs and Their
16:00
Progress
K. Ohta
Toyoda Gosei, Japan
16:30-17:45
LED4-1
16:30
LED4-2
16:45
LED4-3
17:00
LED4-4
17:15
LED4-5
17:30
LED4: InGaN Growth
Room 411, 412
Influence of V/III Ratio and Layer
Thicknesses on MOVPE-Grown N-Polar
(000¯
1) InGaN Multiple Quantum Wells
K. Shojiki 1), J. H. Choi 1), T. Tanikawa 1,2), S.
Kuboya 1), T. Hanada 1,2), R. Katayama 1), and T.
Matsuoka 1,2)
1) Tohoku Univ., Japan, 2) CREST, Japan
Effect of Increasing Pressure on the Growth of
High-Indium-Content InGaN by MOVPE
A. Tamura 1), T. Yamamoto 1), K. Yamashita 1), Y.
Honda 1), and H. Amano 1,2)
1) Nagoya Univ., Japan, 2) Akasaki Research
Center, Japan
Low Temperature Preparation of InGaN with
Pulsed Sputtering and Its Application to
Photovoltaic Devices
Y. Arakawa 1), K. Ueno 1), H. Noguchi 1), J. Ohta
1), and H. Fujioka 1-3)
1) The Univ. of Tokyo, Japan, 2) CREST, Japan, 3)
ACCEL, Japan
InGaN-Based Visible Light-Emitting Diodes
Grown on ScAlMgO4(0001) Substrates
T. Ozaki, M. Funato, and Y. Kawakami
Kyoto Univ., Japan
RF-MBE Growth of InN on Mist-CVD Grown
α-In2O3/Sapphire
T. Araki 1), N. Masuda 1), A. Buma 1), Y. Nanishi
1), M. Oda 2), and T. Hitora 2)
1) Ritsumeikan Univ., Japan, 2) FLOSFIA, Japan
Friday, April 24
9:00-10:45
LED5: Lasers
Room 411, 412
Chair: Z. Sitar, North Carolina State Univ., U.S.A.
LED5-1
9:00
(Invited) Prospects for Laser Diodes in
Solid-State Lighting
J. J. Wierer, Jr. and J. Y. Tsao
Sandia National Laboratories, U.S.A.
LED5-2
(Invited) Developments of Nitride High-Power
9:30
Laser Diode Array for Displays, Medicine and
Printing Applications
P. Perlin 1), A. Kafar 1), S. Stanczyk 1), A.
Bojarska 1), Ł. Marona 1,2), M. Leszczynski 1,2),
and T. Suski 1)
1) Institute of High Pressure Physics, PAS,
Poland, 2) TopGaN Sp. z o.o., Poland
Chair: T. Miyajima, Program Committee Vice-Chair,
Meijo Univ., Japan
LED5-3
Lasing Properties of (1-101) InGaN/GaN
10:00
Stripe Cavity Structure on Patterned (001) Si
Substrates
M. Kushimoto 1), Y. Honda 1), and H. Amano 1,2)
1) Nagoya Univ., Japan, 2) Akasaki Research
Center, Japan
LED5-4
A Pulsed Operation of VCSEL on AlInN/GaN
10:15
DBR Grown with High Growth Rate
Y. Kozuka 1), K. Ikeyama 1), T. Akagi 1), S.
Iwayama 1), K. Nakata 1), T. Takeuchi 1), S.
Kamiyama 1), M. Iwaya 1), I. Akasaki 1,2)
1) Meijo Univ., Japan, 2) Akasaki Research Center,
Japan
LED5-5
Nitride
Superluminescent
Diodes
with
10:30
Broadened Emission Spectra
A. Kafar 1), M. Sarzynski 1,2), S. Stanczyk 1), Ł.
Marona 1,2), G. Targowski 2), I. Makarowa 2), P.
Wisniewski 2), T. Suski 1), and P. Perlin 1,2)
1) Institute of High Pressure Physics, PAS, Poland,
2) TopGaN Sp. z o.o., Poland
Chair: Y. J. Kim, Program Committee Member,
Yonsei Univ., Korea
LED7-1
(Invited) Nitride-Based LEDs on Large
13:30
Substrates by Plasma Processing
H. Fujioka 1,2), H. R. Kim 1), E. Nakamura 1), K.
Ueno 1), A. Kobayashi 1), and J. Ohta 1)
1) The Univ. of Tokyo, Japan, 2) JST, Japan,
LED7-2
(Invited) Novel LED Geometries Enabled by
14:00
Advanced Laser Processes
H. W. Choi
Univ. of Hong Kong, Hong Kong
LED7-3
Performance
of Bendable
InGaN/GaN
14:30
Quantum-Well Light-Emitting Diode
C. H. Lin, C. Y. Su, E. Zhu, C. Hsieh, C. G. Tu,
Y. F. Yao, H. T. Chen, C. H. Liao, H. S. Chen, Y.
W. Kiang, and C. C. Yang
National Taiwan Univ., Taiwan
LED7-4
Narrow-Band LED Therapy in Dermatology
14:45
and Hypnology
M. Ogasawara 1), T. Hirano 2), and S. Fujita 2)
1) Mignon Belle Clinic, Japan, 2) Kyoto Univ.,
Japan
15:00-15:45
LED8: Bulk Substrates
Room 411, 412
Chair: H. Miyake, Mie Univ., Japan
LED8-1
(Invited) State of the Art of Hydride Vapor
15:00
Phase Epitaxy on Ammonothermally Grown
GaN Seeds
T. Sochacki 1,2), M. Amilusik 1,2), M. Fijalkowski
1), B. Lucznik 1,2), M. Iwinska 1), G. Kamler 1), R.
Kucharski 3), I. Grzegory 1), and M. Bockowski
1,2)
----- Break (10:45-11:15)-----
1)
11:15-12:30
LED6: DUV Devices
Room 411, 412
Chair: P. Perlin, Institute of High Pressure Physics, PAS, Poland
LED6-1
(Invited) Status and Challenges in Deep UV
11:15
Lasers
Z. Sitar
North Carolina State Univ., U.S.A.
LED6-2
(Invited) Development of Reliable AlGaN
11:45
Based UV (λ=350-250nm) LEDs Using
Amorphous Fluorine Resin Encapsulation
A. Hirano 1), M. Ippommatsu 1), K. Aosaki 2), H.
Amano 3), and I. Akasaki 4)
1) UV Craftory Co., Ltd., Japan, 2) Asahi Glass
Co., Ltd, Japan, 3) Nagoya Univ., Japan, 4) Meijo
Univ., Japan
LED6-3
Photon
Extraction
Improvement
of
12:15
Pseudomorphic UV-C LEDs for Disinfection
K. Kitamura 1,2), M. Toita 1,2), J. R. Grandusky 1),
C. G. Moe 1), H. Ishii 3), Y. Wang 2), and L. J.
Schowalter 1)
1) Crystal IS, U.S.A., 2) Asahi Kasei, Japan, 3)
Asahi Kasei Microdevices, Japan
----- Lunch Break (12:30-13:30)-----
13:30-15:00
LED7: Advanced LEDs and Applications
Room 411, 412
40
LED8-2
15:30
Institute of High Pressure Physics, PAS,
Poland, 2) TopGaN Sp. z o.o., Poland, 3)
Ammono, Poland
HVPE-GaN Growth on GaN-Based Advanced
Substrate by Smart Cut ™
M. Iwinska 1), M. Amilusik 1,2), M. Fijalkowski 1),
T. Sochacki 1,2), B. Lucznik 1,2), P. Guenard 3), R.
Caulmilone 3), A. Nowakowska-Siwinska 2), I.
Grzegory 1), and M. Bockowski 1,2)
1) Institute of High Pressure Physics, PAS,
Poland, 2) TopGaN Sp. z o.o., Poland, 3) Soitec,
France
----- Break (15:45-16:00)-----
16:00-17:00
LED9: Emerging Materials
Room 411, 412
Chair: J. J. Wierer, Sandia National Laboratories, U.S.A.
LED9-1
Optical Anisotropy in β-Ga2O3 Crystals Grown
16:00
by Melt-Growth Methods
T. Onuma 1-3), S. Saito 3), K. Sasaki 3,4), T. Masui
4), T. Yamaguchi 2), T. Honda 2), and M.
Higashiwaki 3)
1) Tokyo National College of Technology, Japan
2) Kogakuin Univ., Japan, 3) NICT, Japan,
4)
Tamura Corp., Japan
LED9-2
Architectured Van der Waals Epitaxy of ZnO
16:15
Nanostructures on Hexagonal BN
H. Oh 1), Y. J. Hong 2), K. S. Kim 1), S. Yoon 1),
LED9-3
16:30
LED9-4
16:45
17:00-17:30
H. Baek 1), S. H. Kang 3), Y. K. Kwon 3), M.
Kim 1), and G. C. Yi 1)
1) Seoul National Univ., Korea 2) Sejong Univ.,
Korea, 3) Kyung Hee Univ., Korea
Electrochromic
and
Mechanochromic
Luminescence
from
Cross-Conjugated
Chromophores
J. Sun and C. Zhang
Zhejiang Univ. of Technology, China
Low-Threshold
Amplified
Spontaneous
Emission in Benzo(c)fluorenes
K. Kazlauskas, G. Kreiza, E. Radiunas, P.
Adomėnas, O. Adomėnienė, K. Karpavičius, J.
Bucevičius, and S. Juršėnas
Vilnius Univ., Lithuania
LED10: Tutorial 2
Room 411, 412
Chair: G. Hatakoshi, Program Committee Member,
Toshiba Corp., Japan
LED10-1
(Invited) Recent Progress and Development
17:00
Trends of Nitride-Based LEDs
S. Kamiyama
Meijo Univ., Japan
17:30-17:45
Closing
Room 411, 412
Closing Remarks
17:30
T. Takeuchi, Program Committee Chair
Meijo Univ., Japan
41
Optical Manipulation Conference’15
OMC2-3
9:30
OMC’15
Wednesday, April 22
13:40-13:45 Opening
Room 414+415
Opening Remarks
13:40
T. Omatsu, Conference Chair of OMC’ 15
Chiba Univ., Japan
13:45-16:15 OMC&APBP Joint session 1
Room414+415
Chair: H. Ishihara / E. Okada
Osaka Prefecture Univ., Japan / Keio Univ., Japan
OMC&APBP-1 (Invited) Highly-focused light for optical
13:45
trapping
H. Rubinsztein-Dunlop
Univ. of Queensland, Australia
OMC&APBP-2 (Invited) Optical tweezers for investigation
14:15
of mechanical property of a cell
T. Sugiura
Nara Institute of Science and Technology,
Japan
----- Break (14:45-15:15)----OMC&APBP-3 (Invited) Combined optical and acoustic
15:15
trapping
M. Ritsch-Marte
Innsbruck Medical Univ., Austria
OMC&APBP-4 (Invited) Molecular mechanism of efficient
15:45
muscle contraction revealed by single
molecule approaches
M. Kaya, T. Washio, T. Hisada, H. Higuchi
University of Tokyo, Japan
16:15-16:20 Closing
Room414+415
Closing Remarks
16:15
T. Iwai, Conference Chair of APBP’ 15
Tokyo Agriculture & Technology University,
Japan
16:30-17:30 OMC1: Tutorial
Room 414+415
Chair: T. Omatsu
Chiba Univ., Japan
OMC1-1
(Tutorial) TBA
16:30
K. Dholakia
Univ. St. Andrews, UK
OMC2-4
9:45
----- Break (10:30-11:00)----11:00-12:30
----- Lunch Break& Poster Session(12:30-15:30)----13:30-15:30
OMCp4-1
9:00-10:30
42
OMC3: Optical Manipulation 1
Room 414+415
Chair: K. Murakoshi/ Y. Arita
Hokkaido Univ., Japan / Univ. St. Andrews, UK
OMC 3-1
Bisphere-induced transmission changes in
11:00
optical nanofibre
I. Gusachenko, V.G. Truong, S. N. Chormaic
OIST Graduate University, Japan
OMC3-2
Nanostructured micro- and nanofibres for
11:15
optical trapping
M. Daly, V.G. Truong, S. N. Chormaic
OIST Graduate University, Japan
OMC3-3
Manipulation and fixation of silver
11:30
nanowires using multiple Gaussian beams
K. Yokoyama, R. Ozawa, S. Maruo
Yokohama Natl. Univ., Japan
OMC3-4
Anisotropic ring arrays for nanoparticle
11:45
trapping
I. Gusachenko, M. Sergides, V.G. Truong, S.
N. Chormaic
OIST Graduate University, Japan
OMC3-5
(Invited) Plasmonic Optical Tweezers of
12:00
Polymer Chains toward Analytical
Chemistry
T. Shoji
Osaka City Univ., Japan
Thursday, April 23
OMC2: Plasmonic Radiation Pressure
Room 414+415
Chair: M. Ashida/ K. Sasaki
Osaka Univ., Japan/ Hokkaido Univ., Japan
OMC2-1
Optical trapping of micro objects with
9:00
gap-excited miltipole plasmon
J. Kato, E. Sugawara, M. Ozaki, R. Furutani,
Y. Yamagata
RIKEN, Japan
OMC2-2
Possibility of Molecule Trapping in
9:15
Localized Surface Plasmon Field at Room
Temperature
K. Murakoshi, Y. Wakisaka, K. Suzuki, S.
Yasuda, M. Takase
Hokkaido Univ., Japan
The First Atomic Resolution Imaging of
Optical Near-field on Al2O3(0001) Surface
by Photon-Induced Force
J. Yamanishi
Osaka Univ., Japan
(Plenary) The nano-optics of plasmonic
optical tweezers, SERS substrates and
multi-coloured silicon nanowires
K. B. Crozier
Univ. Melbourne, Australia
OMCp4-2
OMCp4-3
OMCp4-4
OMC4: Poster Session
Exhibition Hall C
Preparation of Noble Metal Core - Metal
Oxide
Shell
Particles
via
Ionic
Liquid/Metal
Sputter
Deposition
Technique
T. Torimoto1, K. Enokida1, T. Yamamoto1, T.
Kameyama1, S. Kuwabata2
1Nagoya Univ., Japan, 2Osaka Univ., Japan
Optical micro- and nanofibre pulling rig
V. Hong Le, A. Maimaiti, J. M. Ward, S. N.
Chormaic
OIST Graduate University, Japan
Up-converted luminescence enhanced by
radiation-mediated coupling of excitons in
thin films
T. Matsuda, N. Yokoshi, H. Ishihara
Osaka Prefecture Univ., Japan
Crossover
Behavior
Between
the
Molecular Absorption Spectra of Rabi
splitting and Energy Transparency
R. Hata, N. Murata, H. Ishihara
Osaka Prefecture Univ., Japan
OMCp4-5
Robust control of two-level systems by
shaped optical fields
C.-P. He, S.-Y. Tseng
Natl. Cheng Kung Univ., Taiwan
OMCp4-6
Optical feedback control of orbital angular
momentum in a vertical-cavity surfac
e-emitting laser using spatial phase
modulation
K. Shigematsu1, T. Nishizaka1, H. Yuri1, K.
Yamane1, R. Morita1, Y. Awaji2, Y. Toda1
1Hokkaido Univ., Japan, 2NICT, Japan
OMCp4-7
Holographic techniques and spatial light
modulators systems applied in the
generation of special non-diffractive beams
M.R.R. Gesualdi1, T.A. Vieira1, R.A.B.
Suarez1, M. Zamboni-Rached2
1Univ. Federal ABC, Brazil, 2Univ. Estadual
Campinas, Brazil
OMCp4-8
Optical frequency domain signal analysis
of a fiber Fabry-Perot interference system
M. Fanyong, J. Limin
Beijing Jiaotong Univ., China
15:30-17:45
OMC5: Optical Manipulation 2
Room 414+415
Chair: S. Ashihara / P. Zemanek
Univ. of Tokyo/ Academy of Sciences of the Czech Republic,
Czech Republic
OMC5-1
(Invited) Optical trapping and rotation in
15:30
vacuum
Y. Arita, K. Dholakia
Univ. St. Andrews, UK
OMC5-2
Optical trapping of a microdroplet
16:00
containing a nanomaterial
Y. Minowa, R. Kawai, M. Ashida
Osaka Univ., Japan
OMC5-3
Trapping and manipulation of selective
16:15
microparticles in the evanescent field of
optical micro- and nanofibres
V.G. Truong, A. Maimaiti, I. Gusachenko, M.
Sergides, S.N. Chormaic
OIST Graduate University, Japan
OMC5-4
Metal particle manipulation by laser
16:30
irradiation in glass
H. Hidai, M. Matsushita, S. Matsusaka, A.
Chiba, N. Morita
Chiba Univ., Japan
OMC5-5
Microassembling
with
Holographic
16:45
Optical Tweezers: Improving quality of
2PP subcomponents for 3D manipulation
S.I. Ksouri, J. Koehler, G. Zyla, A. Ostendorf
Ruhr-Univ. Bochum, Germany
OMC5-6
Correlating
Cell
Stretching
With
17:00
Membrane Physiology in Red Blood Cells:
An Optical Tweezer Based Study
P. Praveen, B.V. Nagesh, S.S. Iyengar, S.
Rekha, B. Sarbari, A. Sharath
Bangalore Univ., India
OMC5-7
Optical trapping and assembling of
17:15
neurotransmitter
receptor
proteins
localized on a neuronal cell
C. Hosokawa1, Y. Maezawa1, N. Takeda1,2,
S.N. Kudoh2, T. Taguchi3
1AIST, Japan, 2Kwansei Gakuin Univ., Japan,
3NICT, Japan
43
OMC5-8
17:30
Development of Optically Controllable
Electrophoresis with a Photoconductive
Substrate
W. Inami, T. Nagashima, Y. Kawata
Shizuoka Univ., Japan
Friday, April 24
9:00-10:30
OMC6: Structured light 1
Room 414+415
Chair: T. Shoji /K. Kitamura
Osaka City Univ., Japan / Kyoto Univ., Japan
OMC6-1
(Invited) Manipulating chiral particles by
9:00
chiral light
E. Brasselet
Univ. of Bordeaux 1, France
OMC6-2
Creation of three dimensional spherical
9:30
fluorescence spot for super-resolution
microscopy
Y. Iketaki1, H. Kumagai2, K. Jahn3, N.
Bokor3
1Olympus co., Japan, 2Kitasato Univ., Japan,
3Budapest Univ. of Tech. Econ., Hungary
OMC6-3
Lasing of single-crystalline microspheres
9:45
with high sphericity fabricated by laser
ablation
S. Okamoto, Y. Minowa, M. Ashida
Osaka Univ., Japan
OMC6-4
Quantitative
polarization
state
10:00
characterization
of
higher-order
cylindrically polarized ultrashort pulses
by use of extended Stokes parameters
M. Suzuki, K. Yamane, K. Oka, Y. Toda, R.
Morita
Hokkaido Univ., Japan
OMC6-5
Characteristic polarization singularities in
10:15
vector Laguerre-Gaussian beams
S. Vyas1, Y. Kozawa2, S. Sato2, Y. Miyamoto1
1Univ. of Electro-Commun., Japan, 2Tohoku
Univ., Japan
----- Break (10:30-11:00)----11:00-12:30
OMC7: Structured light 2
Room 414+415
Chair: J. Kato/ R. Morita
RIKEN, Japan/ Hokkaido Univ., Japan
OMC7-1
Tunable near-infrared optical vortex
11:00
generation from a singly resonant optical
parametric oscillator
A. Abulikem, T. Yusufu, K. Miyamoto, T.
Omatsu
Chiba Univ., Japan
OMC7-2
Eigenmode decomposition of singular
11:15
optical beams in cylindrical coordinates
based on electric-field reconstruction
K. Yamane, S. Nakajima, M. Suzuki, N.
Yokose, Y. Toda, R. Morita
Hokkaido Univ., Japan
OMC7-3
Chirality control in mid-infrared vortex
11:30
parametric laser
A. Ogawa, M.T. Horikawa, K. Miyamoto, T.
Omatsu
Chiba Univ., Japan
OMC7-4
Exploring second harmonic conical waves
11:45
in a nonlinear medium with extended
defect structure
OMC7-5
12:00
Y.-C. Lin, K.W. Su, Y.F. Chen
Natl. Chiao Tung Univ., Taiwan
(Invited) Optical levitation of a single
microparticle for its emission spectroscopy
M. Tachikawa
Meiji Univ., Japan
OMC9-5
16:45
OMC9-6
17:00
----- Lunch Break(12:30-13:30)----13:30-14:45
OMC8: Structured matters
Room 414+415
Chair: R. Morita, Programming Chair of OMC’15/ M.
Ashida
Hokkaido Univ., Japan/ Osaka Univ., Japan
OMC8-1
(Invited) Laser processing of solids with
13:30
ultrashort structured light
W. Krolikowski
Australian National Univ., Australia
OMC8-2
Optical vortex can create monocrystalline
14:00
silicon pillar
F. Takahashi1, S. Takizawa1, H. Fujiwara1,
H. Hidai1, K. Miyamoto1, R. Morita2, T.
Omatsu1
1Chiba Univ., Japan, 2Hokkaido Univ., Japan
OMC8-3
Creation of Small and Strong Electric
14:15
Fields by Using a Dielectric Structure and
a Focused Radially Polarized Beam
K. Kitamura, S. Noda
Kyoto Univ., Japan
OMC8-4
Micrometer size chiral conch-shaped relief
14:30
formed in an azo-polymer film by optical
vortex irradiation
G. Juman, I. Yoshida, R. Mamuti, K.
Miyamoto, T. Omatsu
Chiba Univ., Japan
OMC8-5
Glycine crystallization by structured
14:45
photon radiation pressure
J. Lee, M. Magarisawa, K. Miyamoto,T.
Omatsu
Chiba Univ., Japan
----- Break (15:00-15:30)----OMC9: Optical forces
Room 414+415
Chair: E. Brasselet/ M. Ritsch-Marte
Univ. of Bordeaux 1, France/ Innsbruck Medical Univ., Austria
OMC9-1
(Invited) The influence of shape on optical
15:30
forces and torques
S. Hanna
University of Bristol, UK
OMC9-2
Backwards optical torque
16:00
D. Hakobyan, E. Brasselet
Univ. of Bordeaux 1, France
OMC9-3
Force calibration of nonHookean optical
16:15
traps
A. Bui, A.B. Stilgoe, T.A. Nieminen, H.
Rubinsztein-Dunlop Univ. of Queensland,
Australia
OMC9-4
Radiation force exerted by illumination of
16:30
optical vortices with arbitrary polarization
D. Barada1, S. Kawata1, T. Yatagai1, T.
Omatsu2
1Utsunomiya Univ., Japan, 2Chiba Univ.,
Japan
15:30-17:45
44
OMC9-7
17:15
OMC9-8
17:30
Particle propulsion using higher order
microfibre modes
A. Maimaiti, V.G. Truong, M. Sergides
, I. Gusachenko, S.N. Chormaic
OIST Graduate University, Japan
Diffusive motion of macromolecules under
radiation
pressure
investigated
by
fluorescence correlation spectroscopy
(FCS)
S. Ito, N. Toitani, H. Yamauchi, H. Miyasaka
Osaka Univ., Japan
Strong nonlinear effect in optical radiation
force induced by localized surface
plasmons
M. Hoshina, N. Yokoshi, H. Ishihara
Osaka Prefecture Univ., Japan
Multipole resonances in plasmonic crystal
K. Sakai, K. Nomura, T. Yamamoto, T.
Omura, K. Sasaki
Hokkaido Univ., Japan
----- Postdeadline papers (17:30-17:45) -----
17:45-18:00
Closing
Closing Remarks & Best Paper Award
T. Omatsu, Conference Chair of OMC’ 15
Chiba Univ., Japan
Room 414+415

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