Invited Speakers
Special Symposium
Akihiro Takano
(F-WAVE)
SP4 「科学技術立国日本」の凋落危機を救う若手研究者の活躍推進
Andrew Forbes
(Univ. of the Witwatersrand)
SP5 JSAP-SPIE Joint Symposium
Atsuto Suzuki
(Iwate Pref. Univ.)
SP2 Fundamental Research on Space and Matter and Its Advanced Industrial Application
Chihiro Iriguchi
(Ministry of Internal Affairs and Communications)
SP3 Seize the fortune by the forelock!
Ebrahim Karimi
(Univ. of Ottawa)
SP5 JSAP-SPIE Joint Symposium
Eiji Tanaka
(The KAITEKI Institute, Inc.)
SP7 Pioneer a Comfortable Future Society -Collaboration Between Polymer Science and Applied Physics-
Etienne Brasselet
(Universite de Bordeaux)
SP5 JSAP-SPIE Joint Symposium
Hideo Hosono
(Tokyo Inst. of Tech.)
SP4 「科学技術立国日本」の凋落危機を救う若手研究者の活躍推進
Hiroshi Toshiyoshi
(The Univ. of Tokyo)
SP6 The Progress and Prospect of the Integrated MEMS (10th Anniversary Symposium of the Study Group of the Integrated MEMS)
Hitoshi Hayano
(KEK)
SP2 Fundamental Research on Space and Matter and Its Advanced Industrial Application
Hitoshi Matsubara
(Future Univ. Hakodate)
SP3 Seize the fortune by the forelock!
Jun Kataoka
(Waseda Univ.)
SP2 Fundamental Research on Space and Matter and Its Advanced Industrial Application
Junji Urakawa
(KEK)
SP2 Fundamental Research on Space and Matter and Its Advanced Industrial Application
Kay Domen
(Yushisozo)
SP3 Seize the fortune by the forelock!
Kazuya Masu
(Titech)
SP6 The Progress and Prospect of the Integrated MEMS (10th Anniversary Symposium of the Study Group of the Integrated MEMS)
Keiji Sasaki
(Hokkaido Univ.)
SP5 JSAP-SPIE Joint Symposium
Kohzo Ito
(The Univ. of Tokyo)
SP7 Pioneer a Comfortable Future Society -Collaboration Between Polymer Science and Applied Physics-
Makoto Ishida
(Toyohashi Univ. of Tech.)
SP6 The Progress and Prospect of the Integrated MEMS (10th Anniversary Symposium of the Study Group of the Integrated MEMS)
Makoto Kobayashi
(KEK)
SP2 Fundamental Research on Space and Matter and Its Advanced Industrial Application
Masahide Goto
(NHK)
SP6 The Progress and Prospect of the Integrated MEMS (10th Anniversary Symposium of the Study Group of the Integrated MEMS)
Michael Mazilu
(Univ. of St. Andrews)
SP5 JSAP-SPIE Joint Symposium
Mitsuru Uesaka
(The Univ. of Tokyo)
SP2 Fundamental Research on Space and Matter and Its Advanced Industrial Application
Nobuyuki Matsuki
(Kanagawa Univ.)
SP4 「科学技術立国日本」の凋落危機を救う若手研究者の活躍推進
Sachio Komamiya
(The Univ. of Tokyo)
SP2 Fundamental Research on Space and Matter and Its Advanced Industrial Application
Satoshi Iwamoto
(Univ. of Tokyo)
SP5 JSAP-SPIE Joint Symposium
Shuji Hashimoto
(Waseda Univ.)
SP2 Fundamental Research on Space and Matter and Its Advanced Industrial Application
Shuji Hayase
(Kyushu Inst. of Tech.)
SP7 Pioneer a Comfortable Future Society -Collaboration Between Polymer Science and Applied Physics-
Siddharth Ramachandran
(Univ. of Boston)
SP5 JSAP-SPIE Joint Symposium
Takaaki Matsuzawa
(MEXT)
SP4 「科学技術立国日本」の凋落危機を救う若手研究者の活躍推進
Takanori Ichiki
(The Univ. of Tokyo)
SP7 Pioneer a Comfortable Future Society -Collaboration Between Polymer Science and Applied Physics-
Tomiko Suzuki
(Toyota Central R&D Labs.)
SP7 Pioneer a Comfortable Future Society -Collaboration Between Polymer Science and Applied Physics-
Toshio Miyata
(mih clinic)
SP3 Seize the fortune by the forelock!
Tsuneo Komatsuzaki
(SECOM)
SP6 The Progress and Prospect of the Integrated MEMS (10th Anniversary Symposium of the Study Group of the Integrated MEMS)
Yamato Fukuta
(JR East)
SP6 The Progress and Prospect of the Integrated MEMS (10th Anniversary Symposium of the Study Group of the Integrated MEMS)
Yasuo Kameyama
(You Go Lab)
SP3 Seize the fortune by the forelock!
Yoichi Ochiai
(Univ. of Tsukuba)
SP3 Seize the fortune by the forelock!
Yuichi Takayanagi
(Tamarokuto Science Center)
SP2 Fundamental Research on Space and Matter and Its Advanced Industrial Application
Yuichiro Matsuzaki
(NTT-BRL)
SP4 「科学技術立国日本」の凋落危機を救う若手研究者の活躍推進
Yumiko Katayama
(The Univ. of Tokyo)
SP4 「科学技術立国日本」の凋落危機を救う若手研究者の活躍推進
1.Interdisciplinary Physics and Related Areas of Science and Technology
Akira Yamada
(Tokyo Inst. of Tech.)
S2 Progress in Materials and Devices Technology for Advanced Use of Renewable Energy
Jun-ichi Shimoyama
(Aoyama Gakuin Univ.)
S2 Progress in Materials and Devices Technology for Advanced Use of Renewable Energy
Kenichi Kobayashi
(Meiji Univ.)
S1 Thermoacoustic
Ryuhei Nakamura
(RIKEN/Tokyo Inst. of Tech.)
S2 Progress in Materials and Devices Technology for Advanced Use of Renewable Energy
Shinya Hasegawa
(Tokai Univ.)
S1 Thermoacoustic
Shuji Nakanishi
(Osaka Univ.)
S2 Progress in Materials and Devices Technology for Advanced Use of Renewable Energy
Takashi Itoh
(Tohoku Univ.)
S2 Progress in Materials and Devices Technology for Advanced Use of Renewable Energy
Takayuki Ichikawa
(Hiroshima Univ. )
S2 Progress in Materials and Devices Technology for Advanced Use of Renewable Energy
Taro Hitosugi
(Tokyo Inst. of Tech.)
S2 Progress in Materials and Devices Technology for Advanced Use of Renewable Energy
Tetsushi Biwa
(Tohoku Univ.)
S1 Thermoacoustic
Toshiyuki Takatsuji
(AIST)
1.5 Instrumentation, measurement and Metrology
Tsutomu Minegishi
(The Univ. of Tokyo)
S2 Progress in Materials and Devices Technology for Advanced Use of Renewable Energy
Yasuhide Kobayashi
(Nagaoka Univ. of Technology)
S1 Thermoacoustic
Yuki Fujio
(AIST)
1.5 Instrumentation, measurement and Metrology
Yuki Ueda
(Tokyo Univ. of Agriculture and Technology)
S1 Thermoacoustic
2.Ionizing Radiation
Kiichi Kaminaga
(QST)
S3 The synchrotron radiation micro beam technology for the real elucidation of biological effect of radiation
Masao Suzuki
(QST)
S3 The synchrotron radiation micro beam technology for the real elucidation of biological effect of radiation
Noriko Usami
(KEK)
S3 The synchrotron radiation micro beam technology for the real elucidation of biological effect of radiation
Ritsuko Watanabe
(QST)
S3 The synchrotron radiation micro beam technology for the real elucidation of biological effect of radiation
Takeshi Fujiwara
(AIST)
2.2 Detection systems
Tomoo Hunayama
(QST)
S3 The synchrotron radiation micro beam technology for the real elucidation of biological effect of radiation
Yudai Izumi
(Hiroshima Univ. )
S3 The synchrotron radiation micro beam technology for the real elucidation of biological effect of radiation
3.Optics and Photonics
Hakaru Mizoguchi
(Gigaphoton Inc.)
S5 Progress in studies on mterial conversion and processing with high-power lasers
Hideo Kosaka
(Yokohama Nat. Univ.)
S6 Quantum Computer and Quantum Simulator
Jaw-Shen Tsai
(RIKEN)
S6 Quantum Computer and Quantum Simulator
Jun Murayama
(Sony)
S4 Polarization imaging for lightwave sensing
Keisuke Fujii
(Kyoto Univ.)
S6 Quantum Computer and Quantum Simulator
Kohei Itoh
(Keio Univ.)
S6 Quantum Computer and Quantum Simulator
Masaharu Nishikino
(QST)
S5 Progress in studies on mterial conversion and processing with high-power lasers
Masahiro Tsukamoto
(Osaka Univ.)
S5 Progress in studies on mterial conversion and processing with high-power lasers
Masaki Hashida
(Kyoto Univ.)
S5 Progress in studies on mterial conversion and processing with high-power lasers
Masashi Hazumi
(KEK)
S4 Polarization imaging for lightwave sensing
Nathan Hagen
(Utsunomiya Univ.)
S4 Polarization imaging for lightwave sensing
Nobuhiko Nishiyama
(Titech)
3.15 Silicon photonics
Norimasa Ozaki
(Osaka Univ.)
S5 Progress in studies on mterial conversion and processing with high-power lasers
Seigo Tarucha
(The Univ. of Tokyo)
S6 Quantum Computer and Quantum Simulator
Shuntaro Takeda
(The Univ. of Tokyo)
S6 Quantum Computer and Quantum Simulator
Takashi Kato
(UEC)
3.8 Optical measurement, instrumentation, and sensor
Takeo Minamikawa
(Tokushima Univ.)
S4 Polarization imaging for lightwave sensing
Yasuhiro Mizutani
(Osaka Univ.)
S4 Polarization imaging for lightwave sensing
Yoshiaki Yasuno
(Univ. of Tsukuba)
S4 Polarization imaging for lightwave sensing
Yukitoshi Otani
(Utsunomiya Univ.)
S4 Polarization imaging for lightwave sensing
6.Thin Films and Surfaces
Aiko Narazaki
(AIST)
S7 New developments on technologies for flexible ceramics coatings and inorganic/organic hybrid flexible devices
Akio Takano
(Toyama Co., Ltd.)
S10 Ion Beam and Surface Analysis: Recent Progress in Secondary Ion Mass Spectrometry (SIMS) and Its Application to Organic Analysis
Atsushi Shishido
(Tokyo Inst. of Tech.)
S7 New developments on technologies for flexible ceramics coatings and inorganic/organic hybrid flexible devices
Daisuke Mori
(Fuji Electric Co. Ltd.)
S11 Advanced 3D atomic imaging to develop new materials and devices technologies
Hiromitsu Kozuka
(Kansai Univ.)
S7 New developments on technologies for flexible ceramics coatings and inorganic/organic hybrid flexible devices
Hiroshi Daimon
(NAIST)
S11 Advanced 3D atomic imaging to develop new materials and devices technologies
Hiroshi Funakubo
(Tokyo Inst. of Tech.)
S7 New developments on technologies for flexible ceramics coatings and inorganic/organic hybrid flexible devices
Hiroshi Uji-i
(Hokkaido Univ.)
S8 The forefront of tip-enhanced Raman spectroscopy
Jiro Matsuo
(Kyoto Univ.)
S10 Ion Beam and Surface Analysis: Recent Progress in Secondary Ion Mass Spectrometry (SIMS) and Its Application to Organic Analysis
Kazuki Miyata
(Kanazawa Univ.)
6.6 Probe Microscopy
Koichiro Saiki
(The Univ. of Tokyo)
S11 Advanced 3D atomic imaging to develop new materials and devices technologies
Koji Kimoto
(AIST)
S11 Advanced 3D atomic imaging to develop new materials and devices technologies
Koji Miyazaki
(Kyushu Inst. of Tech.)
S7 New developments on technologies for flexible ceramics coatings and inorganic/organic hybrid flexible devices
Kousuke Moritani
(Univ. Hyogo)
S10 Ion Beam and Surface Analysis: Recent Progress in Secondary Ion Mass Spectrometry (SIMS) and Its Application to Organic Analysis
Kunihito Koumoto
(Toyota Physical and Chemical Rsch Inst.)
S7 New developments on technologies for flexible ceramics coatings and inorganic/organic hybrid flexible devices
Masaru Shimizu
(Univ. of Hyogo)
S9 Fundamentals and applications of piezoelectric thin-film devices
Naoto Matono
(SAE Magnetics)
S9 Fundamentals and applications of piezoelectric thin-film devices
Naoya Shibata
(The Univ. of Tokyo)
S11 Advanced 3D atomic imaging to develop new materials and devices technologies
Noriaki Takagi
(Univ. of Tokyo)
6.4Thin films and New materials
Norihiko Hayazawa
(RIKEN)
S8 The forefront of tip-enhanced Raman spectroscopy
Ryota Takahashi
(The Univ. of Tokyo)
S9 Fundamentals and applications of piezoelectric thin-film devices
Satoka Aoyagi
(Seikei Univ.)
S10 Ion Beam and Surface Analysis: Recent Progress in Secondary Ion Mass Spectrometry (SIMS) and Its Application to Organic Analysis
Satoru Ichinokura
(Univ. of Tokyo)
6.5 Surface Physics, Vacuum
Satoshi Ninomiya
(Univ. Yamanashi)
S10 Ion Beam and Surface Analysis: Recent Progress in Secondary Ion Mass Spectrometry (SIMS) and Its Application to Organic Analysis
Satoshi Kawata
(Osaka Univ.)
S8 The forefront of tip-enhanced Raman spectroscopy
Shinya Suzuki
(The Univ. of Tokyo)
S7 New developments on technologies for flexible ceramics coatings and inorganic/organic hybrid flexible devices
Takahiko Yanagitani
(Waseda Univ.)
S9 Fundamentals and applications of piezoelectric thin-film devices
Takashi Nakajima
(Tokyo Univ. of Science)
S9 Fundamentals and applications of piezoelectric thin-film devices
Takayuki Harada
(Tohoku Univ.)
6.4Thin films and New materials
Takuya Miyayama
(ULVAC-PHI, Inc.)
S10 Ion Beam and Surface Analysis: Recent Progress in Secondary Ion Mass Spectrometry (SIMS) and Its Application to Organic Analysis
Tetsushi Taguchi
(NIMS)
S7 New developments on technologies for flexible ceramics coatings and inorganic/organic hybrid flexible devices
Tetsuya Yamamoto
(Kochi Univ. of Technology)
S7 New developments on technologies for flexible ceramics coatings and inorganic/organic hybrid flexible devices
Tomoaki Kawamura
(Nichia Corp.)
S11 Advanced 3D atomic imaging to develop new materials and devices technologies
Tomoyuki Yokota
(The Univ. of Tokyo)
S7 New developments on technologies for flexible ceramics coatings and inorganic/organic hybrid flexible devices
Toyohiko Kinoshita
(JASRI)
S11 Advanced 3D atomic imaging to develop new materials and devices technologies
Yoshihiko Imanaka
(Fujitsu Laboratories, Ltd.)
S7 New developments on technologies for flexible ceramics coatings and inorganic/organic hybrid flexible devices
Yukihiro Ozaki
(Kwansei Gakuin Univ.)
S8 The forefront of tip-enhanced Raman spectroscopy
Yukio Fujiwara
(AIST)
S10 Ion Beam and Surface Analysis: Recent Progress in Secondary Ion Mass Spectrometry (SIMS) and Its Application to Organic Analysis
7.Beam Technology and Nanofabrication
Eiji Ikenaga
(Nagoya Univ.)
7.4 Buried interface sciences with quantum beam
Han Zhang
(NIMS)
S12 Recent progresses in development of electron sources and their novel applications
Hidenori Mimura
(Shizuoka Univ.)
S12 Recent progresses in development of electron sources and their novel applications
Hidetaka Shimawaki
(Hachinohe Inst. of Tech.)
S12 Recent progresses in development of electron sources and their novel applications
Katsuhisa Murakami
(AIST)
S12 Recent progresses in development of electron sources and their novel applications
Masakazu Nanba
(NHK)
S12 Recent progresses in development of electron sources and their novel applications
Norio Masuda
(NEC Network and Sensor Systems, Ltd.)
S12 Recent progresses in development of electron sources and their novel applications
Yoshinori Takao
(Yokohama Nat. Univ.)
S12 Recent progresses in development of electron sources and their novel applications
8.Plasma Electronics
Hiroki Ago
(Kyushu Univ.)
S13 Synthesis and plasma processing for 2D sheet materials -from ultra-thin films to atomically thin layered materials-
Hiroki Kondo
(Nagoya Univ.)
S13 Synthesis and plasma processing for 2D sheet materials -from ultra-thin films to atomically thin layered materials-
Hitoshi Wakabayashi
(Tokyo Inst. of Tech.)
S13 Synthesis and plasma processing for 2D sheet materials -from ultra-thin films to atomically thin layered materials-
Kenji Watanabe
(NIMS)
S13 Synthesis and plasma processing for 2D sheet materials -from ultra-thin films to atomically thin layered materials-
Masaru Izawa
(Hitachi High-Technologies)
8.7 Plasma Electronics Invited Talk
Masataka Hasegawa
(AIST)
S13 Synthesis and plasma processing for 2D sheet materials -from ultra-thin films to atomically thin layered materials-
Naho Itagaki
(Kyushu Univ.)
S13 Synthesis and plasma processing for 2D sheet materials -from ultra-thin films to atomically thin layered materials-
Yoshikazu Homma
(Tokyo Univ. of Sci.)
S13 Synthesis and plasma processing for 2D sheet materials -from ultra-thin films to atomically thin layered materials-
Yuichi Setsuhara
(Osaka Univ.)
S13 Synthesis and plasma processing for 2D sheet materials -from ultra-thin films to atomically thin layered materials-
9.Applied Materials Science
Hideyuki Maki
(Keio Univ.)
S14 Evolution of nanowire devices and physics for IoT era
Hiromichi Ohta
(Hokkaido Univ.)
S14 Evolution of nanowire devices and physics for IoT era
Ken-ichi Uchida
(NIMS)
S14 Evolution of nanowire devices and physics for IoT era
Kenichi Kawaguchi
(Fujitsu Laboratories Ltd.)
S14 Evolution of nanowire devices and physics for IoT era
Sadashige Matsuo
(The Univ. of Tokyo)
S14 Evolution of nanowire devices and physics for IoT era
Takao Yasui
(Nagoya Univ.)
S14 Evolution of nanowire devices and physics for IoT era
Takeshi Yanagida
(Kyushu Univ.)
S14 Evolution of nanowire devices and physics for IoT era
Tomoaki Yamada
(Nagoya Univ.)
S14 Evolution of nanowire devices and physics for IoT era
10.Spintronics and Magnetics
Hikaru Nomura
(Osaka Unv.)
S15 What is "neuromorphic hardware " ?
Hiromasa Goto
(Univ. of Tsukuba)
S16 Magneto Science now and the future
Masakazu Iwasaka
(Hiroshima Univ. )
S16 Magneto Science now and the future
Shigehiro Nishijima
(Fukui Univ. of Tech.)
S16 Magneto Science now and the future
Shunsuke Fukami
(Tohoku Univ.)
S15 What is "neuromorphic hardware " ?
Sumio Ozeki
(Shinshu Univ.)
S16 Magneto Science now and the future
Sumito Tsunegi
(AIST)
S15 What is "neuromorphic hardware " ?
Takao Marukame
(Toshiba)
S15 What is "neuromorphic hardware " ?
Takashi Morie
(Kyushu Inst. of Tech.)
S15 What is "neuromorphic hardware " ?
Tetsuo Endo
(Tohoku Univ.)
S15 What is "neuromorphic hardware " ?
Tetsuya Asai
(Hokkaido Univ.)
S15 What is "neuromorphic hardware " ?
Tomoyuki Kakeshita
(Osaka Univ.)
S16 Magneto Science now and the future
Tsunehisa Kimura
(Kyoto Univ.)
S16 Magneto Science now and the future
11.Superconductivity
Atsushi Ishiyama
(Waseda Univ.)
S17 Numerical simulation technology active in superconducting materials -Physical phenomena, crystal growth and application design-
Hidehiro Asai
(AIST)
S17 Numerical simulation technology active in superconducting materials -Physical phenomena, crystal growth and application design-
Mark Ainslie
(Univ. of Cambridge)
S17 Numerical simulation technology active in superconducting materials -Physical phenomena, crystal growth and application design-
Masaru Kato
(Osaka Pref. Univ.)
S17 Numerical simulation technology active in superconducting materials -Physical phenomena, crystal growth and application design-
Tetsuya Matsuno
(National Inst. of Tech., Ariake College)
S17 Numerical simulation technology active in superconducting materials -Physical phenomena, crystal growth and application design-
Yusuke Ichino
(Nagoya Univ.)
S17 Numerical simulation technology active in superconducting materials -Physical phenomena, crystal growth and application design-
12.Organic Molecules and Bioelectronics
Atsushi Wakamiya
(Kyoto Univ.)
S18 pMAIRS: A cutting-edge technique revealing the molecular orientation even in an amorphous thin film having a surface roughness
Daisuke Yokoyama
(Yamagata Univ.)
12.1 Fabrications and Structure Controls
Genki Yoshikawa
(NIMS)
S19 New sensor technologies based on advanced nanobiodevices and machine learning
Kazuki Nakamura
(Chiba Univ.)
12.3 Functional Materials and Novel Devices
Kiyoshi Toko
(Kyushu Univ.)
S19 New sensor technologies based on advanced nanobiodevices and machine learning
Masateru Taniguchi
(Osaka Univ.)
S19 New sensor technologies based on advanced nanobiodevices and machine learning
Masato Okada
(The Univ. of Tokyo)
S19 New sensor technologies based on advanced nanobiodevices and machine learning
Sae Nagai
(SONY)
S18 pMAIRS: A cutting-edge technique revealing the molecular orientation even in an amorphous thin film having a surface roughness
Shinji Ando
(Tokyo Inst. of Tech.)
S18 pMAIRS: A cutting-edge technique revealing the molecular orientation even in an amorphous thin film having a surface roughness
Takashi Washio
(Osaka Univ.)
S19 New sensor technologies based on advanced nanobiodevices and machine learning
Takeshi Hasegawa
(Kyoto Univ.)
S18 pMAIRS: A cutting-edge technique revealing the molecular orientation even in an amorphous thin film having a surface roughness
Takeshi Yanagida
(Kyushu Univ.)
S18 pMAIRS: A cutting-edge technique revealing the molecular orientation even in an amorphous thin film having a surface roughness
Tamiki Komatsuzaki
(Hokkaido Univ.)
S19 New sensor technologies based on advanced nanobiodevices and machine learning
Yuki Nagao
(JAIST)
S18 pMAIRS: A cutting-edge technique revealing the molecular orientation even in an amorphous thin film having a surface roughness
13.Semiconductors
Akira Toriumi
(The Univ. of Tokyo)
13.5 Semiconductor devices and related technologies
Akira Toriumi
(The Univ. of Tokyo)
S23 Is Ge substituting for Si?
Atsushi Yamamoto
(AIST)
S21 Novel physical properties and applications of ternary compounds
Hiromasa Tamaki
(Panasonic Corporation)
S21 Novel physical properties and applications of ternary compounds
Iriya Muneta
(Tokyo Inst. of Tech.)
13.5 Semiconductor devices and related technologies
Jaehoon Han
(The Univ. of Tokyo)
13.5 Semiconductor devices and related technologies
Jyunichi Hattori
(AIST)
S22 Semiconductor Device Simulation: Applications and Future Perspectives
Kazuaki Sawada
(Toyohashi Univ. of Tech.)
S24 Integrated Sensor Systems for Ubiquitous Health Care Applications
Kazuhiko Hara
(Shizuoka Univ.)
S21 Novel physical properties and applications of ternary compounds
Kazuhiro Ohnishi
(Renesas Electronics)
S25 Visualizing a brilliant future for Japanese semiconductor industry & Research
Kazuya Matsuzawa
(Keio Univ.)
S22 Semiconductor Device Simulation: Applications and Future Perspectives
Ken Uchida
(Keio Univ.)
S22 Semiconductor Device Simulation: Applications and Future Perspectives
Ken Uchida
(Keio Univ.)
S24 Integrated Sensor Systems for Ubiquitous Health Care Applications
Kenji Shiojima
(Univ. of Fukui)
S20 Progress of compound semiconductor device technologies: what can learn from history of GaAs device development
Kohei Ashida
(Osaka Pref. Univ.)
13.5 Semiconductor devices and related technologies
Kohei Hamaya
(Osaka Univ.)
S23 Is Ge substituting for Si?
Koji Neya
(Sony)
S25 Visualizing a brilliant future for Japanese semiconductor industry & Research
Kunihiko Iwamoto
(ROHM Co., Ltd.)
S25 Visualizing a brilliant future for Japanese semiconductor industry & Research
Mamoru Kitaura
(Yamagata Univ.)
S21 Novel physical properties and applications of ternary compounds
Michihiro Yamada
(Osaka Univ.)
13.5 Semiconductor devices and related technologies
Minoru Ida
(NTT)
S20 Progress of compound semiconductor device technologies: what can learn from history of GaAs device development
Mitsuaki Igeta
(Mie Fujitsu Semiconductor Ltd.)
S25 Visualizing a brilliant future for Japanese semiconductor industry & Research
Munetaka Noguchi
(Mitsubishi Electric Corporation)
S25 Visualizing a brilliant future for Japanese semiconductor industry & Research
Naoki Saiwaki
(Nara Women's Univ.)
S24 Integrated Sensor Systems for Ubiquitous Health Care Applications
Nobuya Mori
(Osaka Univ.)
S22 Semiconductor Device Simulation: Applications and Future Perspectives
Nobuyuki Sano
(Univ. of Tsukuba)
S22 Semiconductor Device Simulation: Applications and Future Perspectives
Seigo Tarucha
(the Univ. of Tokyo)
13.6 Nanostructures, quantum phenomena, and nano quantum devices
Seiji Samukawa
(Tohoku Univ.)
S23 Is Ge substituting for Si?
Shigeru Ikeda
(Konan Univ.)
S21 Novel physical properties and applications of ternary compounds
Shinichi Takagi
(The Univ. of Tokyo)
S23 Is Ge substituting for Si?
Shosuke Fujii
(Toshiba Memory Corporation)
S25 Visualizing a brilliant future for Japanese semiconductor industry & Research
Takaaki Hattori
(Tokyo Medical and Dental Univ.)
S24 Integrated Sensor Systems for Ubiquitous Health Care Applications
Takayuki Nozawa
(Tokyo Institute of Tech.)
S24 Integrated Sensor Systems for Ubiquitous Health Care Applications
Takeshi Tanaka
(Sciocs)
S20 Progress of compound semiconductor device technologies: what can learn from history of GaAs device development
Takeshi Yanagida
(Kyushu Univ.)
S24 Integrated Sensor Systems for Ubiquitous Health Care Applications
Takumi Mikawa
(Panasonic Semiconductor Solutions Co., Ltd.)
S25 Visualizing a brilliant future for Japanese semiconductor industry & Research
Tomoyoshi Mishima
(Hosei Univ.)
S20 Progress of compound semiconductor device technologies: what can learn from history of GaAs device development
Tsuyoshi Takahashi
(Fujitsu Laboratories Ltd.)
S20 Progress of compound semiconductor device technologies: what can learn from history of GaAs device development
Wen Hsin Chang
(AIST)
S23 Is Ge substituting for Si?
Yao-Jen Lee
(National Nano Device Laboratory Taiwan)
S23 Is Ge substituting for Si?
Yasuroh Irie
(Mizuho Information & Research Institute, Inc.)
S25 Visualizing a brilliant future for Japanese semiconductor industry & Research
Yoshihiro Miyake
(Tokyo Institute of Tech.)
S24 Integrated Sensor Systems for Ubiquitous Health Care Applications
Yoshinari Kamakura
(Osaka Univ.)
S22 Semiconductor Device Simulation: Applications and Future Perspectives
Yoshitaro Nose
(Kyoto Univ.)
S21 Novel physical properties and applications of ternary compounds
Yoshiyuki Yonezawa
(AIST)
S20 Progress of compound semiconductor device technologies: what can learn from history of GaAs device development
Yung-Hsien Wu
(National Tsing Hua Univ. )
S23 Is Ge substituting for Si?
15.Crystal Engineering
Akira Sakai
(Osaka Univ.)
S29 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors: How far can we control the defects? Advanced characterization and functional exploration
Akira Toriumi
(The Univ. of Tokyo)
S27 Ge Technology - Electron / Photon / Phonon / Spin - Innovation of Group-IV Semiconductors -
Akira Uedono
(Univ. of Tsukuba)
S29 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors: How far can we control the defects? Advanced characterization and functional exploration
Atsushi Tanaka
(Nagoya Univ.)
S29 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors: How far can we control the defects? Advanced characterization and functional exploration
Atsushi Togo
(Kyoto Univ.)
S26 A new era of defect research starting with field fusion
Atsutomo Nakamura
(Nagoya Univ.)
S26 A new era of defect research starting with field fusion
Hiroshi Fujioka
(The Univ. of Tokyo)
S29 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors: How far can we control the defects? Advanced characterization and functional exploration
Katsuro Hayashi
(Kyushu Univ.)
S28 Development of innovative functional materials based on mixed-anion compounds
Kazuhiko Maeda
(Tokyo Inst. of Tech.)
S28 Development of innovative functional materials based on mixed-anion compounds
Kohei Hamaya
(Osaka Univ.)
S27 Ge Technology - Electron / Photon / Phonon / Spin - Innovation of Group-IV Semiconductors -
Koichiro Shimomura
(KEK)
S26 A new era of defect research starting with field fusion
Kunihito Koumoto
(Toyota Physical and Chemical Rsch Inst.)
S28 Development of innovative functional materials based on mixed-anion compounds
Masayoshi Mikami
(Mitsubishi Chemical Corporation)
S28 Development of innovative functional materials based on mixed-anion compounds
Mikio Higuchi
(Hokkaido Univ.)
15.1 Bulk crystal growth
Mitsuru Takenaka
(The Univ. of Tokyo)
S27 Ge Technology - Electron / Photon / Phonon / Spin - Innovation of Group-IV Semiconductors -
Norihiko Okamoto
(Tohoku Univ.)
S26 A new era of defect research starting with field fusion
Seiichi Miyazaki
(Nagoya Univ.)
S27 Ge Technology - Electron / Photon / Phonon / Spin - Innovation of Group-IV Semiconductors -
Shigetaka Tomiya
(Sony)
S29 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors: How far can we control the defects? Advanced characterization and functional exploration
Takahiro Shimada
(Kyoto Univ.)
S26 A new era of defect research starting with field fusion
Takanobu Watanabe
(Waseda Univeristy)
S27 Ge Technology - Electron / Photon / Phonon / Spin - Innovation of Group-IV Semiconductors -
Takanori Kiguchi
(Tohoku Univ.)
S29 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors: How far can we control the defects? Advanced characterization and functional exploration
Takehiko Hiraga
(The Univ. of Tokyo)
S26 A new era of defect research starting with field fusion
Tetsuya Hasegawa
(The Univ. of Tokyo)
S28 Development of innovative functional materials based on mixed-anion compounds
Wataru Sugimura
(SUMCO)
S26 A new era of defect research starting with field fusion
Yasufumi Fujiwara
(Osaka Univ.)
S29 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors: How far can we control the defects? Advanced characterization and functional exploration
Yoshiaki Nakamura
(Osaka Univ.)
S27 Ge Technology - Electron / Photon / Phonon / Spin - Innovation of Group-IV Semiconductors -
Yuji Masubuchi
(Hokkaido Univ.)
S28 Development of innovative functional materials based on mixed-anion compounds
Yusuke Mori
(Osaka Univ.)
15.1 Bulk crystal growth
Yusuke Mori
(Osaka Univ.)
S29 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors: How far can we control the defects? Advanced characterization and functional exploration
16.Amorphous and Microcrystalline Materials
Atsushi Masuda
(AIST)
S30 Recent progress of crystalline silicon solar cells for terawatt power generation
Atsushi Ogura
(Meiji Univ.)
S30 Recent progress of crystalline silicon solar cells for terawatt power generation
Chikao Okamoto
(Sharp Corporation)
S30 Recent progress of crystalline silicon solar cells for terawatt power generation
Hiroyuki Yamada
(NEDO)
S30 Recent progress of crystalline silicon solar cells for terawatt power generation
Hitoshi Sai
(AIST)
S30 Recent progress of crystalline silicon solar cells for terawatt power generation
Izumi Kaizuka
(RTS Corporation)
S31 Women in Photovoltaics at JSAP
Koichi Kakimoto
(Kyushu Univ.)
S30 Recent progress of crystalline silicon solar cells for terawatt power generation
Minato Seno
(Panasonic Corporation)
S31 Women in Photovoltaics at JSAP
Nahoko Kasai
(Tokyo Metropolitan Univ.)
S31 Women in Photovoltaics at JSAP
Noboru Yamaguchi
(ULVAC, Inc.)
S30 Recent progress of crystalline silicon solar cells for terawatt power generation
Noritaka Usami
(Nagoya Univ.)
S30 Recent progress of crystalline silicon solar cells for terawatt power generation
Osamu Ikki
(RTS Corporation)
S30 Recent progress of crystalline silicon solar cells for terawatt power generation
Shen Qing
(The Univ. of Electro-Communications)
S31 Women in Photovoltaics at JSAP
Tsuyoshi Honma
(Nagaoka Univ. of Tech.)
16.1 Fundamental properties, evaluation, process and devices in disordered
materials
Yoshio Ohshita Ohshita
(Toyota Technological Inst.)
S30 Recent progress of crystalline silicon solar cells for terawatt power generation
Yukiko Kamikawa
(AIST)
S31 Women in Photovoltaics at JSAP
Yuko Takeoka
(Sophia Univ.)
S31 Women in Photovoltaics at JSAP
17.Nanocarbon Technology
Atsushi Tsukazaki
(Tohoku Univ.)
17.3 Layered materials
Kenji Hata
(AIST)
17.1 Carbon nanotubes & other nanocarbon materials
Maki Suemitsu
(Tohoku Univ.)
17.2 Graphene
Yahachi Saito
(Nagoya Univ.)
17.1 Carbon nanotubes & other nanocarbon materials
Junichiro Shiomi
(The Univ. of Tokyo)
S32 Challenge to heat dissipation problems by organic-inorganic materials -Forefront of physics and application-
Junko Morikawa
(Tokyo Inst. of Tech.)
S32 Challenge to heat dissipation problems by organic-inorganic materials -Forefront of physics and application-
Katsunori Hanamura
(Tokyo Inst. of Tech.)
22.1 Joint Session M "Phonon Engineering"
Koji Miyazaki
(Kyushu Inst. of Tech.)
S32 Challenge to heat dissipation problems by organic-inorganic materials -Forefront of physics and application-
Masahiro Nomura
(The Univ. of Tokyo)
S32 Challenge to heat dissipation problems by organic-inorganic materials -Forefront of physics and application-
Shigeo Maruyama
(The Univ. of Tokyo)
S32 Challenge to heat dissipation problems by organic-inorganic materials -Forefront of physics and application-
Shohei Chiashi
(The Univ. of Tokyo)
22.1 Joint Session M "Phonon Engineering"
Takashi Kodama
(The Univ. of Tokyo)
22.1 Joint Session M "Phonon Engineering"
Taku Ohara
(Tohoku Univ.)
S32 Challenge to heat dissipation problems by organic-inorganic materials -Forefront of physics and application-
Takuro Kumamoto
(ZEON)
S32 Challenge to heat dissipation problems by organic-inorganic materials -Forefront of physics and application-
Wang Haidong
(Kyusyu Univ.)
22.1 Joint Session M "Phonon Engineering"
Yoshitaka Takezawa
(Hitachi Chemical)
S32 Challenge to heat dissipation problems by organic-inorganic materials -Forefront of physics and application-