Invited Speakers
Symposium (non-technical)
Akira Toriumi
(The Univ. of Tokyo (retired))
NT3 To accelerate social implementations of applied-physic technologies related to integrated circuits
Eiichi Yamaguchi
(Kyoto Univ.)
NT3 To accelerate social implementations of applied-physic technologies related to integrated circuits
Kazumasa Uetsuki
(Ushio Inc.)
NT2 Critical Role of Semiconductor Technology: Shaping Auto Industry on “New Normal” Infrastructure and Challenges by Cutting-Edge Researchers
Kazunari Ishimaru
(KIOXIA)
NT3 To accelerate social implementations of applied-physic technologies related to integrated circuits
Ken Shimizu
(Accenture Japan)
NT3 To accelerate social implementations of applied-physic technologies related to integrated circuits
Masatomo Takahashi
(Tokyo Seimitsu)
NT2 Critical Role of Semiconductor Technology: Shaping Auto Industry on “New Normal” Infrastructure and Challenges by Cutting-Edge Researchers
Miki Ito
(Astroscale Japan)
NT1 Think about applied physics in space
Naoto OHKAWA
(Canon)
NT2 Critical Role of Semiconductor Technology: Shaping Auto Industry on “New Normal” Infrastructure and Challenges by Cutting-Edge Researchers
Nobuko Saigusa
(NIES)
NT1 Think about applied physics in space
Satoko Iida
(Sony Semiconductor Solutions)
NT2 Critical Role of Semiconductor Technology: Shaping Auto Industry on “New Normal” Infrastructure and Challenges by Cutting-Edge Researchers
Satoshi Hasegawa
(KIOXIA)
NT2 Critical Role of Semiconductor Technology: Shaping Auto Industry on “New Normal” Infrastructure and Challenges by Cutting-Edge Researchers
Satoshi Shibata
(Panasonic )
NT3 To accelerate social implementations of applied-physic technologies related to integrated circuits
Sumitaka Tachikawa
(JAXA)
NT1 Think about applied physics in space
Teruo Hirayama
(Sony)
NT3 To accelerate social implementations of applied-physic technologies related to integrated circuits
Tetsuya Satake
(Mitsubishi Electric)
NT1 Think about applied physics in space
Toshitsugu Sakamoto
(NEC)
NT1 Think about applied physics in space
Yasumitsu Orii
(NAGASE&Co.Ltd)
NT3 To accelerate social implementations of applied-physic technologies related to integrated circuits
Yoshihiko Isobe
(MIRISE Technologies)
NT2 Critical Role of Semiconductor Technology: Shaping Auto Industry on “New Normal” Infrastructure and Challenges by Cutting-Edge Researchers
Yoshito Kamaji
(Hitachi High-Tech)
NT2 Critical Role of Semiconductor Technology: Shaping Auto Industry on “New Normal” Infrastructure and Challenges by Cutting-Edge Researchers
Youichi Oshima
(Tokyo Tech)
NT3 To accelerate social implementations of applied-physic technologies related to integrated circuits
Yuki Mizuyama
(HORIBA Group)
NT2 Critical Role of Semiconductor Technology: Shaping Auto Industry on “New Normal” Infrastructure and Challenges by Cutting-Edge Researchers
Yuya Nakamura
(Axelspace)
NT1 Think about applied physics in space
Forcused Session "AI Electronics"
Akira Hirose
(The Univ. of Tokyo)
FS.1 Forcused Session "AI Electronics"
Masanori Hashimoto
(Osaka Univ.)
FS.1 Forcused Session "AI Electronics"
Seiya Kasai
(Hokkaido Univ.)
FS.1 Forcused Session "AI Electronics"
Tetsuo Endoh
(Tohoku Univ. )
FS.1 Forcused Session "AI Electronics"
2.Ionizing Radiation
Akihiko Masuda
(AIST)
T1 Recent studies of Boron Neutron Capture Therapy (BNCT)
Hidenori Toyokawa
(JASRI)
2.2 Detection systems
Hiroki Tanaka
(Kyoto Univ.)
T1 Recent studies of Boron Neutron Capture Therapy (BNCT)
Katsunori Ueno
(Hitachi)
2.1 Radiation physics and Detector fundamentals
Masashi Takada
(Nat'l Defense Acad.)
T1 Recent studies of Boron Neutron Capture Therapy (BNCT)
Sachiko Yoshihashi
(Nagoya Univ.)
T1 Recent studies of Boron Neutron Capture Therapy (BNCT)
Yoshiaki Kiyanagi
(Nagoya Univ.)
T1 Recent studies of Boron Neutron Capture Therapy (BNCT)
3.Optics and Photonics
Feng-Lei Hong
(YNU)
3.8 Optical measurement, instrumentation, and sensor
Koichi Maruyama
(Team-Opt)
3.2 Equipment optics and materials
Koichi Yamakawa
(Light Touch Technology)
T2 Innovation and development of new business created by photonics III – Photonic startups launched from universities and national institutes-
Kouji Nawata
(RIKEN)
3.9 Terahertz technologies
Masahiro Yoshida
(Kyoto Univ.)
3.11 Photonic structures and phenomena
Shigeru Kogure
(Photon-Labo)
T2 Innovation and development of new business created by photonics III – Photonic startups launched from universities and national institutes-
Sumimura Kazuhiko
(Kokyo, Inc.)
T2 Innovation and development of new business created by photonics III – Photonic startups launched from universities and national institutes-
Sunao Kurimura
(NIMS)
T2 Innovation and development of new business created by photonics III – Photonic startups launched from universities and national institutes-
Tadao Tsuruta
(Nikon,retired)
3.2 Equipment optics and materials
Takahiro Ikeda
(Pi Photonics)
T2 Innovation and development of new business created by photonics III – Photonic startups launched from universities and national institutes-
Takashi Sato
(Photonic Lattice)
T2 Innovation and development of new business created by photonics III – Photonic startups launched from universities and national institutes-
Wataru Susaki
(OECU)
3.13 Semiconductor optical devices
Yoshinori Honguh
(Toshiba)
3.1 Basic optics and frontier of optics
Yuki Maeda
(Parity Innovations)
T2 Innovation and development of new business created by photonics III – Photonic startups launched from universities and national institutes-
Ziyi Zhang
(Asahi Kasei)
3.13 Semiconductor optical devices
4.JSAP-OSA Joint Symposia 2020
Cuong Dang
(Nanyang Technol. Univ.)
4.4 Information Photonics
Donghyun Kim
(Yonsei Univ.)
4.1 Plasmonics and Nanophotonics
Jianfang Wang
(Chinese Univ. of Hong Kong)
4.1 Plasmonics and Nanophotonics
Katsuyoshi Ikeda
(Nagoya Inst. of Technol.)
4.1 Plasmonics and Nanophotonics
Kei Murakoshi
(Hokkaido Univ.)
4.1 Plasmonics and Nanophotonics
Koichiro Tanaka
(Kyoto Univ.)
4.7 Quantum Optics and Nonlinear Optics
Kyunghwan Oh
(Yonsei Univ.)
4.7 Quantum Optics and Nonlinear Optics
Luca Razzari
(INRS-EMT)
4.6 Terahertz Photonics
Marco Battiato
(Nanyang Technol. Univ.)
4.6 Terahertz Photonics
Martin Smrz
(HiLASE)
4.3 Lasers and laser materials processing
Masaki Hashida
(Kyoto Univ.)
4.3 Lasers and laser materials processing
Masako Kashiwagi
(Toshiba)
4.4 Information Photonics
Masayuki Shinohara
(Omron)
4.4 Information Photonics
Nicolas Pavillon
(Osaka Univ.)
4.1 Plasmonics and Nanophotonics
Rong Xiang
(The Univ. of Tokyo)
4.5 Nanocarbon and 2D Materials
Ryusuke Matsunaga
(The Univ. of Tokyo)
4.6 Terahertz Photonics
Shigeki Takeuchi
(Kyoto Univ.)
4.7 Quantum Optics and Nonlinear Optics
Shota Kita
(NTT-BRL)
4.2 Photonics Devices, Photonic Integrated Circuit and Silicon Photonics
Sihan Zhao
(UC Berkeley)
4.5 Nanocarbon and 2D Materials
Stephen Fantone
(The Optical Society (OSA))
4.8 OSA Special Lecture
Sze Yun Set
(The Univ. of Tokyo)
4.2 Photonics Devices, Photonic Integrated Circuit and Silicon Photonics
Takashige Omatsu
(Chiba Univ.)
4.3 Lasers and laser materials processing
Takasumi Tanabe
(Keio Univ.)
4.3 Lasers and laser materials processing
Takayuki Umakoshi
(Osaka Univ.)
4.1 Plasmonics and Nanophotonics
Tomohiro Shiraki
(Kyushu Univ.)
4.5 Nanocarbon and 2D Materials
Yasuaki Monnai
(Keio Univ.)
4.6 Terahertz Photonics
Yasumitsu Miyata
(Tokyo Metropolitan Univ.)
4.5 Nanocarbon and 2D Materials
Yasutaka Kitahama
(AIST)
4.1 Plasmonics and Nanophotonics
Yoon-Ho Kim
(POSTECH)
4.7 Quantum Optics and Nonlinear Optics
6.Thin Films and Surfaces
Aiko Narazaki
(AIST)
T3 The Third-generation dissimilar materials bonding and its application to the film growth control: Interface nano-kubernetes
Akira Chikamatsu
(The Univ. of Tokyo)
T6 The interplay of ions and electrons in functional oxides towards new development of energy creating and storage devices
Akira Funahashi
(Keio Univ.)
T7 The fusion of multidimensional measurement technologies and data science toward the progress of bioimaging and biosensing techniques
Akitoshi Hayashi
(Osaka Prefecture Univ.)
T5 Innovation with all-solid-state batteries: from basics to future prospects
Daisuke Asakura
(AIST)
T6 The interplay of ions and electrons in functional oxides towards new development of energy creating and storage devices
Haruhiko Morito
(Tohoku Univ.)
T4 Extreme environmental nano-interface science connecting materials and devices
Hideki Iba
(Toyota Motor Corp.)
T5 Innovation with all-solid-state batteries: from basics to future prospects
Hideto Imai
(NISSAN ARC)
T5 Innovation with all-solid-state batteries: from basics to future prospects
Katsuaki Tanabe
(Kyoto Univ.)
T3 The Third-generation dissimilar materials bonding and its application to the film growth control: Interface nano-kubernetes
Kazuhiro Ogawa
(Tohoku Univ.)
T3 The Third-generation dissimilar materials bonding and its application to the film growth control: Interface nano-kubernetes
Kazuki Nagashima
(The Univ. of Tokyo)
T4 Extreme environmental nano-interface science connecting materials and devices
Kazumichi Yokota
(AIST)
T7 The fusion of multidimensional measurement technologies and data science toward the progress of bioimaging and biosensing techniques
Kazunori Takada
(NIMS)
T5 Innovation with all-solid-state batteries: from basics to future prospects
Ken Albrecht
(Kyushu Univ.)
T4 Extreme environmental nano-interface science connecting materials and devices
Mahito Yamamoto
(Kansai Univ.)
T3 The Third-generation dissimilar materials bonding and its application to the film growth control: Interface nano-kubernetes
Masakazu Akiyama
(Meiji Univ.)
T4 Extreme environmental nano-interface science connecting materials and devices
Masakazu Aono
(NIMS)
6.6 Probe Microscopy
Masaya Fujioka
(Hokkaido Univ.)
T4 Extreme environmental nano-interface science connecting materials and devices
Minoru Osada
(Nagoya Univ.)
T3 The Third-generation dissimilar materials bonding and its application to the film growth control: Interface nano-kubernetes
Naoya Miyashita
(The Unversity of Tokyo)
T3 The Third-generation dissimilar materials bonding and its application to the film growth control: Interface nano-kubernetes
Ryohei Yasukuni
(NAIST)
T7 The fusion of multidimensional measurement technologies and data science toward the progress of bioimaging and biosensing techniques
Ryoji Kanno
(Tokyo Tech)
T6 The interplay of ions and electrons in functional oxides towards new development of energy creating and storage devices
Sou Ryuzaki
(Kyushu Univ.)
T4 Extreme environmental nano-interface science connecting materials and devices
Susumu Shiraki
(Nippon Inst. of Techh.)
T5 Innovation with all-solid-state batteries: from basics to future prospects
Tadatomo Suga
(Meisei Univ.)
T3 The Third-generation dissimilar materials bonding and its application to the film growth control: Interface nano-kubernetes
Takaaki Tomai
(Tohoku Univ.)
T4 Extreme environmental nano-interface science connecting materials and devices
Takaharu Okajima
(Hokkaido Univ.)
T7 The fusion of multidimensional measurement technologies and data science toward the progress of bioimaging and biosensing techniques
Takahisa Ohno
(NIMS)
T5 Innovation with all-solid-state batteries: from basics to future prospects
Takanori Nakamura
(Murata Manufacturing)
T6 The interplay of ions and electrons in functional oxides towards new development of energy creating and storage devices
Takanori Tamaki
(Tokyo Tech)
T4 Extreme environmental nano-interface science connecting materials and devices
Takuo Sasaki
(QST)
T3 The Third-generation dissimilar materials bonding and its application to the film growth control: Interface nano-kubernetes
Tetsuyuki Kodera
(Kanazawa Univ.)
T7 The fusion of multidimensional measurement technologies and data science toward the progress of bioimaging and biosensing techniques
Yasuo Izumi
(Chiba Univ.)
T6 The interplay of ions and electrons in functional oxides towards new development of energy creating and storage devices
Yasuo Koide
(NIMS)
T3 The Third-generation dissimilar materials bonding and its application to the film growth control: Interface nano-kubernetes
Yasuyuki Ozeki
(The Univ. of Tokyo)
T7 The fusion of multidimensional measurement technologies and data science toward the progress of bioimaging and biosensing techniques
Yoshihiro Kuroiwa
(Hiroshima Univ.)
T3 The Third-generation dissimilar materials bonding and its application to the film growth control: Interface nano-kubernetes
Yoshio Honda
(Nagoya Univ.)
T3 The Third-generation dissimilar materials bonding and its application to the film growth control: Interface nano-kubernetes
Yuichi Shimakawa
(Kyoto Univ.)
T6 The interplay of ions and electrons in functional oxides towards new development of energy creating and storage devices
7.Beam Technology and Nanofabrication
Akira Chikamatsu
(The Univ. of Tokyo)
T8 Optical functions of thin films studied by various quantum beams
Kenji Sakurai
(NIMS)
T8 Optical functions of thin films studied by various quantum beams
Masaki Hada
(Univ. of Tsukuba)
T8 Optical functions of thin films studied by various quantum beams
Nobuhisa Ishii
(QST)
T8 Optical functions of thin films studied by various quantum beams
Shin-ichi Tanaka
(NIT(KOSEN)-Kure)
T8 Optical functions of thin films studied by various quantum beams
Shinji Miwa
(The Univ. of Tokyo)
T8 Optical functions of thin films studied by various quantum beams
Shoji Yoshida
(Univ. of Tsukuba)
T8 Optical functions of thin films studied by various quantum beams
Sumio Ishihara
(Tohoku Univ.)
T8 Optical functions of thin films studied by various quantum beams
Yuya Kubota
(RIKEN)
T8 Optical functions of thin films studied by various quantum beams
8.Plasma Electronics
Hideo Fukuhara
(Kochi Medical Sch.)
T9 Frontier of Research on Mechanism of Plasma-induced Biological Reactions
Hiromasa Tanaka
(Nagoya Univ.)
T9 Frontier of Research on Mechanism of Plasma-induced Biological Reactions
Katsuhisa Kitano
(Osaka Univ.)
T9 Frontier of Research on Mechanism of Plasma-induced Biological Reactions
Koichi Takaki
(Iwate Univ.)
T9 Frontier of Research on Mechanism of Plasma-induced Biological Reactions
Masafumi Jinno
(Ehime Univ.)
T9 Frontier of Research on Mechanism of Plasma-induced Biological Reactions
Mitsuhiro Omura
(KIOXIA)
8.8 Plasma Electronics Award Speech
Nobuyuki Kuboi
(Sony Semiconductor Solutions)
8.8 Plasma Electronics Award Speech
Shinichi Imai
(Hitachi High-Tech Solutions)
8.7 Plasma Electronics Invited Talk
Tomohiro Tanaka
(Natl. Inst. of Natural Sciences CNSI)
T9 Frontier of Research on Mechanism of Plasma-induced Biological Reactions
Yuzuru Ikehara
(Chiba Univ.)
T9 Frontier of Research on Mechanism of Plasma-induced Biological Reactions
9.Applied Materials Science
Hiroto Sekiguchi
(Toyohashi Univ. of Tech.)
T10 Novel Function and Technology Based on Ensemble Phenomenon
Izumi Fukunaga
(OIST)
T10 Novel Function and Technology Based on Ensemble Phenomenon
Lars Samuelson
(Lund Univ.)
9.3 Nanoelectronics
Makito Haruta
(NAIST)
T10 Novel Function and Technology Based on Ensemble Phenomenon
Michio Suzuki
(The Univ. of Tokyo)
T10 Novel Function and Technology Based on Ensemble Phenomenon
Takafumi Ishibe
(Osaka Univ.)
9.4 Thermoelectric conversion
Takao Yasui
(Nagoya Univ.)
T10 Novel Function and Technology Based on Ensemble Phenomenon
Takumi Nishikubo
(Tokyo Tech.)
9.5 New functional materials and new phenomena
Yoriko Tominaga
(Hiroshima Univ)
T10 Novel Function and Technology Based on Ensemble Phenomenon
Yuki Kurauchi
(Kumamoto Univ.)
T10 Novel Function and Technology Based on Ensemble Phenomenon
10.Spintronics and Magnetics
Daichi Chiba
(Osaka Univ.)
10.3 Spin devices, magnetic memories and storages
Dany Lachance-Quirion
(Nord Quantique)
10.2 Fundamental and exploratory device technologies for spin
Hiroaki Yoda
(Spin-Orbitronics Technologies)
T11 Recent Progress in Nonvolatile Memory technologies – Spintronic, Phase-change, Resistive and Ferroelectric-
Ken Takeuchi
(The Univ. of Tokyo)
T11 Recent Progress in Nonvolatile Memory technologies – Spintronic, Phase-change, Resistive and Ferroelectric-
Masanori Hosomi
(Sony Semiconductor Solutions)
T11 Recent Progress in Nonvolatile Memory technologies – Spintronic, Phase-change, Resistive and Ferroelectric-
Satoshi Awamura
(Panasonic Semiconductor Solutions)
T11 Recent Progress in Nonvolatile Memory technologies – Spintronic, Phase-change, Resistive and Ferroelectric-
Sumio Ikegawa
(Everspin Technologies)
T11 Recent Progress in Nonvolatile Memory technologies – Spintronic, Phase-change, Resistive and Ferroelectric-
Yohei Shiokawa
(TDK)
T11 Recent Progress in Nonvolatile Memory technologies – Spintronic, Phase-change, Resistive and Ferroelectric-
Yuji Sutou
(Tohoku Univ.)
T11 Recent Progress in Nonvolatile Memory technologies – Spintronic, Phase-change, Resistive and Ferroelectric-
11.Superconductivity
Keiichi Tanabe
(SUSTERA)
T12 Advanced measurement technology realized by superconductor -Recent applications of SQUID-
Keiji Enpuku
(Kyushu Univ.)
T12 Advanced measurement technology realized by superconductor -Recent applications of SQUID-
Keiji Tsukada
(Okayama Univ.)
T12 Advanced measurement technology realized by superconductor -Recent applications of SQUID-
Koichi Yokosawa
(Hokkaido Univ.)
T12 Advanced measurement technology realized by superconductor -Recent applications of SQUID-
Yoshiaki Adachi
(Kanazawa Inst. of Tech.)
T12 Advanced measurement technology realized by superconductor -Recent applications of SQUID-
12.Organic Molecules and Bioelectronics
Akira Funahashi
(Keio Univ.)
T7 The fusion of multidimensional measurement technologies and data science toward the progress of bioimaging and biosensing techniques
Kazumichi Yokota
(AIST)
T7 The fusion of multidimensional measurement technologies and data science toward the progress of bioimaging and biosensing techniques
Mana Toma
(Tokyo Tech)
12.7 Biomedical Engineering and Biochips
Ryohei Yasukuni
(NAIST)
T7 The fusion of multidimensional measurement technologies and data science toward the progress of bioimaging and biosensing techniques
Sandanayaka Atula
(Kyushu Univ.)
12.4 Organic light-emitting devices and organic transistors
Shintaro Fujii
(Tokyo Tech)
12.1 Fabrications and Structure Controls
Takaharu Okajima
(Hokkaido Univ.)
T7 The fusion of multidimensional measurement technologies and data science toward the progress of bioimaging and biosensing techniques
Tetsuyuki Kodera
(Kanazawa Univ.)
T7 The fusion of multidimensional measurement technologies and data science toward the progress of bioimaging and biosensing techniques
Yasuyuki Ozeki
(The Univ. of Tokyo)
T7 The fusion of multidimensional measurement technologies and data science toward the progress of bioimaging and biosensing techniques
Yuko Takeoka
(Sophia Univ.)
12.5 Organic solar cells
13.Semiconductors
Akira Toriumi
(The Univ. of Tokyo (retired))
13.4 Si processing /Si based thin film / MEMS / Equipment technology
Daisuke Okamoto
(PETRA)
13.5 Semiconductor devices/ Interconnect/ Integration technologies
Hanfang Hao
(Carl Zeiss)
T13 Recent progress in Advanced Ion Microscopy: Application to nano materials / devices and life science
Hideaki Takashima
(Kyoto Univ.)
T13 Recent progress in Advanced Ion Microscopy: Application to nano materials / devices and life science
Kimihiko Kato
(The Univ. of Tokyo)
13.5 Semiconductor devices/ Interconnect/ Integration technologies
Masahiro Hori
(Shizuoka Univ.)
13.5 Semiconductor devices/ Interconnect/ Integration technologies
Masahiro Nomura
(The Univ. of Tokyo)
T13 Recent progress in Advanced Ion Microscopy: Application to nano materials / devices and life science
Mitsutoshi Setou
(Hamamatsu Univ. Sch. of Medicine)
T13 Recent progress in Advanced Ion Microscopy: Application to nano materials / devices and life science
Olivier De Castro
(Luxembourg Inst. of Sci. and Tech.)
T13 Recent progress in Advanced Ion Microscopy: Application to nano materials / devices and life science
Shane Cybart
(UC Riverside)
T13 Recent progress in Advanced Ion Microscopy: Application to nano materials / devices and life science
Yukinori Ono
(Shizuoka Univ.)
13.5 Semiconductor devices/ Interconnect/ Integration technologies
15.Crystal Engineering
Hideto Miyake
(Mie Univ.)
T15 Functionality and science of transparent crystals: Ecosystems created by deep ultraviolet emitters
Hiroshi Fujioka
(Tokyo Univ.)
T15 Functionality and science of transparent crystals: Ecosystems created by deep ultraviolet emitters
Hiroshi Irie
(Yamanashi Univ.)
T16 Development of the engineering for the diverse stable phases ~Objectives for the future environment, energy materials and devices
Hiroshi Kitagawa
(Kyoto Univ.)
T16 Development of the engineering for the diverse stable phases ~Objectives for the future environment, energy materials and devices
Katsuaki Sato
(TUAT)
T16 Development of the engineering for the diverse stable phases ~Objectives for the future environment, energy materials and devices
Kozo Fujiwara
(Tohoku Univ.)
15.1 Bulk crystal growth
Kumiko Konishi
(Hitachi)
15.6 Group IV Compound Semiconductors (SiC)
Maki Kushimoto
(Nagoya Univ.)
T15 Functionality and science of transparent crystals: Ecosystems created by deep ultraviolet emitters
Masato Kotsugi
(Tokyo Univ. of Sci.)
T16 Development of the engineering for the diverse stable phases ~Objectives for the future environment, energy materials and devices
Masayuki Imanishi
(Osaka Univ.)
15.4 III-V-group nitride crystals
Motoaki Iwaya
(Meijo Univ.)
T15 Functionality and science of transparent crystals: Ecosystems created by deep ultraviolet emitters
Naoomi Yamada
(Chubu Univ.)
T16 Development of the engineering for the diverse stable phases ~Objectives for the future environment, energy materials and devices
Naoya Shibata
(The Univ. of Tokyo)
T14 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors ~Frontiers in defect physics: Concerted approach of characterization and theory~
Noritaka Usami
(Nagoya Univ.)
T16 Development of the engineering for the diverse stable phases ~Objectives for the future environment, energy materials and devices
Ryuji Katayama
(Osaka Univ.)
T15 Functionality and science of transparent crystals: Ecosystems created by deep ultraviolet emitters
Satoshi Watanabe
(The Univ. of Tokyo)
T14 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors ~Frontiers in defect physics: Concerted approach of characterization and theory~
Shohei Hayashi
(Toray Research Center)
15.6 Group IV Compound Semiconductors (SiC)
Shuzi Hayase
(The Univ. of Electro-Communications )
T16 Development of the engineering for the diverse stable phases ~Objectives for the future environment, energy materials and devices
Tadakatsu Ohkubo
(NIMS)
T14 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors ~Frontiers in defect physics: Concerted approach of characterization and theory~
Taro Hitosugi
(Tokyo Tech)
T16 Development of the engineering for the diverse stable phases ~Objectives for the future environment, energy materials and devices
Tomohisa Kato
(AIST)
T16 Development of the engineering for the diverse stable phases ~Objectives for the future environment, energy materials and devices
Toshiyuki Koyama
(Nagoya Univ.)
T16 Development of the engineering for the diverse stable phases ~Objectives for the future environment, energy materials and devices
Tsunehiro Takeuchi
(Toyota Technol. Inst.)
T16 Development of the engineering for the diverse stable phases ~Objectives for the future environment, energy materials and devices
Yasuhiro Shoji
(C&A )
15.1 Bulk crystal growth
Yoshiaki Nakamura
(Osaka Univ.)
T14 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors ~Frontiers in defect physics: Concerted approach of characterization and theory~
Yoshihiro Ishitani
(Chiba Univ.)
T14 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors ~Frontiers in defect physics: Concerted approach of characterization and theory~
Yoshihiro Kangawa
(Kyushu Univ.)
T15 Functionality and science of transparent crystals: Ecosystems created by deep ultraviolet emitters
Yosuke Harashima
(Nagoya Univ.)
T14 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors ~Frontiers in defect physics: Concerted approach of characterization and theory~
Yuichi Oshima
(NIMS)
T16 Development of the engineering for the diverse stable phases ~Objectives for the future environment, energy materials and devices
Yukio Kashima
(RIKEN)
15.4 III-V-group nitride crystals
17.Nanocarbon Technology
Haruka Omachi
(Nagoya Univ.)
17.1 Carbon nanotubes & other nanocarbon materials
Hideaki Nakajima
(AIST)
17.2 Graphene
Hideyuki Maki
(Keio Univ.)
T17 Science of 2-dimensional materials: New science and applications of 2-dimensional materials and their integrated structures
Kazuhiko Kano
(DENSO)
T17 Science of 2-dimensional materials: New science and applications of 2-dimensional materials and their integrated structures
Kazunari Matsuda
(Kyoto Univ.)
T17 Science of 2-dimensional materials: New science and applications of 2-dimensional materials and their integrated structures
Masaaki Shimatani
(Mitsubishi Electric)
17.2 Graphene
Naruo Sasaki
(The Univ. of Electro-Communications)
T17 Science of 2-dimensional materials: New science and applications of 2-dimensional materials and their integrated structures
Takao Sasagawa
(Tokyo Tech)
T17 Science of 2-dimensional materials: New science and applications of 2-dimensional materials and their integrated structures
Tetsuhiko Teshima
(NTT Research)
T17 Science of 2-dimensional materials: New science and applications of 2-dimensional materials and their integrated structures
Tomoki Machida
(The Univ. of Tokyo)
T17 Science of 2-dimensional materials: New science and applications of 2-dimensional materials and their integrated structures
Joint Session K "Wide bandgap oxide semiconductor materials and devices"
Shizuo Fujita
(Kyoto Univ.)
21.1 Joint Session K "Wide bandgap oxide semiconductor materials and devices"
Takanori Takahashi
(NAIST)
21.1 Joint Session K "Wide bandgap oxide semiconductor materials and devices"
Joint Session M "Phonon Engineering"
Daiki Hatanaka
(NTT-BRL)
T18 Leading edge of phonon engineering
Eiji Saitoh
(The Univ. of Tokyo)
T18 Leading edge of phonon engineering
Ken Uchida
(The Univ. of Tokyo)
T18 Leading edge of phonon engineering
Kenji Tsuruta
(OKayama Univ.)
T18 Leading edge of phonon engineering
Masahiro Nomura
(The Univ. of Tokyo)
22.1 Joint Session M "Phonon Engineering"
Sebastian Volz
(The Univ. of Tokyo)
T18 Leading edge of phonon engineering
Suguru Noda
(Waseda Univ.)
T18 Leading edge of phonon engineering
Sunao Shimizu
(CRIEPI)
T18 Leading edge of phonon engineering
Taishi Takenobu
(Nagoya Univ.)
T18 Leading edge of phonon engineering
Takao Mori
(NIMS)
T18 Leading edge of phonon engineering
Takuma Shiga
(The Univ. of Tokyo)
T18 Leading edge of phonon engineering
Yuzo Shigesato
(Aoyama Gakuin Univ.)
T18 Leading edge of phonon engineering
Joint Session N "Informatics"
Ichiro Takeuchi
(Univ. of Maryland)
23.1 Joint Session N "Informatics"
Ippei Kimura
(Asahi Kasei)
T19 What comes after ” Materials Informatics”
Kanta Ono
(KEK)
T19 What comes after ” Materials Informatics”
Keisuke Nagato
(The Univ. of Tokyo)
T19 What comes after ” Materials Informatics”
Kentaro Kutsukake
(RIKEN)
T19 What comes after ” Materials Informatics”
Ryo Yoshida
(ISM)
T19 What comes after ” Materials Informatics”
Satoshi Itoh
(FOCUS)
T19 What comes after ” Materials Informatics”
Taro Hitosugi
(Tokyo Tech)
T19 What comes after ” Materials Informatics”
Toru Ujihara
(Nagoya Univ.)
T19 What comes after ” Materials Informatics”
Yuma Iwasaki
(NEC)
T19 What comes after ” Materials Informatics”