Invited Speakers

Agnes Tixier-Mita (The Univ. of Tokyo) T12 Advanced Surface and Interface Technologies for Micro and Nanoscale Fabrication

Akira Kagoshima (Hitachi High-Tech Corporation) NT3 World Stops When Japan Stops! ~ Our Legendary Semiconductor Technologies ~

Akira Ohtomo (Tokyo Inst. of Tech.) T10 Frontiers on research of hydrate materials -Current status, subjects, and prospects of materials development and their functionalities

Akira Yamada (Tokyo Inst. of Tech.) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Atsushi Sugita (Shizuoka Univ.) T22 Control and device application of spontaneous orientation of polar molecules

Atsushi Wada (Toshiba Corporation) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Ayaka Kanai (Nagaoka Univ. of Tech.) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Daichi Chiba (Osaka Univ.) T18 Progress of the feeble biological signal measurement technique by spintronics and magnetics

Daisuke Nakamura (Kyushu Univ.) T6 Recent Progress of laser ablation

Dong Wook Kim (Aromajoin Corporation) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Dongsheng Yuan (NIMS) T3 Various materials for radiation measurements

Eisuke Abe (RIKEN) T13 The leading-edge research on quantum science and technology based on quantum bits and spin defects in solid-state materials

Eisuke Tokumitsu (Japan Advanced Inst. of Sci. and Tech.) T26 What is next killer application after display? Leading edge technology of oxide semicondutor

Emi Narita (QST) T16 What is Plasma-Driven Science - Expectations for New Developments in Plasma Processes

Erika Kawakami (RIKEN) T29 Latest trend of device technologies for quantum computing

Hideharu Amano (Keio Univ.) T25 Ultimate Laboratory Automation: Semiconductor Giga Fab as a Giant Robotic Experimenter?

Hidekazu Tanaka (Osaka Univ.) T10 Frontiers on research of hydrate materials -Current status, subjects, and prospects of materials development and their functionalities

Hideki Fujiwara (Hokkai-Gakuen Univ.) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Hideo Fujikake (Tohoku Univ.) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Hideo Kosaka (Yokohama Nat'l Univ.) T29 Latest trend of device technologies for quantum computing

Hideyoshi Horimai (HOLOMEDIA/The Univ. of Tokyo) NT2 Got Talent in Japan -KOSEN & JSAP-

Hideyuki Maki (Keio Univ.) T28 Recent progresses of device applications of low-dimensional materials

Hirokazu Masai (AIST) T3 Various materials for radiation measurements

Hirokazu Tahara (Kyoto Univ.) T5 Sciences of Strong Light-Matter Interaction for Tailored Quantum Manipulation

Hiroki Moriwake (Japan Fine Ceramics Center) T11 Machine learning on dielectrics study

Hironori Kobayashi (AIST) NT1 How can Applied Physics accelerate the green transformation for the sustainable future?

Hiroshi Masuko (Azabu High School) T1 Vocational career education and lifelong learning for realizing skill and technology inheritance

Hiroshi Miyajima (Sumitomo Precision Products CO.,LTD.) T27 Trends and Prospects of MEMS and Microfabrication Technologies Contributing to the With-Covid-19 Era

Hiroshi Mukawa (Sony Group Corporation) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Hiroshi Sugimoto (Kobe Univ.) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Hiroshi Takatsu (Kyoto Univ.) T10 Frontiers on research of hydrate materials -Current status, subjects, and prospects of materials development and their functionalities

Hiroshi Toshiyoshi (The Univ. of Tokyo) T12 Advanced Surface and Interface Technologies for Micro and Nanoscale Fabrication

Hiroshi Yoshikawa (Nihon Univ.) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Hirotaka Terai (NICT) T29 Latest trend of device technologies for quantum computing

Hirotomo Nishihara (Tohoku Univ.) T28 Recent progresses of device applications of low-dimensional materials

Hirotsugu Yamamoto (Utsunomiya Univ.) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Hiroyuki Fujita (Tokyo City Univ.) T25 Ultimate Laboratory Automation: Semiconductor Giga Fab as a Giant Robotic Experimenter?

Hiroyuki Shinoda (The Univ. of Tokyo) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Hitoshi Kunitake (Semiconductor Energy Laboratory Co., Ltd.) T26 What is next killer application after display? Leading edge technology of oxide semicondutor

Hitoshi Saito (FUJITSU SEMICONDUCTOR MEMORY SOLUTION LIMITED) T28 Recent progresses of device applications of low-dimensional materials

Homei Miyashita (Meiji Univ.) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Jaw-Shen Tsai (Tokyo Univ. of Sci.) T29 Latest trend of device technologies for quantum computing

Jiro Matsuo (Kyoto Univ.) T15 Latest trends in ion beam analysis

Jun Yoneda (Tokyo Inst. of Tech.) T13 The leading-edge research on quantum science and technology based on quantum bits and spin defects in solid-state materials

Junichi Takahara (Osaka Univ.) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Kasidit Toprasertpong (The Univ. of Tokyo) T11 Machine learning on dielectrics study

Katsuhiro Muramatsu (Konoshima Chemical Co.,Ltd. ) T3 Various materials for radiation measurements

Katsuya Shimizu (Osaka Univ.) T10 Frontiers on research of hydrate materials -Current status, subjects, and prospects of materials development and their functionalities

Kazuaki Sawada (Toyohashi Univ. of Tech.) T20 Cutting edge nanotechnology for virus detection -Realization of a pandemic-free society with graphene FET sensors capable of rapid detection of human infectious viruses-

Kazuhiko Matsumoto (Osaka Univ.) T20 Cutting edge nanotechnology for virus detection -Realization of a pandemic-free society with graphene FET sensors capable of rapid detection of human infectious viruses-

Kazuo Tanaka (Kyoto Univ.) T3 Various materials for radiation measurements

Kazuya Masu (Tokyo Inst. of Tech.) NT2 Got Talent in Japan -KOSEN & JSAP-

Kazuyoshi Ueno (Shibaura Inst. of Tech.) T24 Connection : From BEOL to Tiplet, and to the Future

Kazuyuki Kuroyama (The Univ. of Tokyo) T17 Quantum Cooperation between Materials and Information

Keigo Arai (Tokyo Inst. of Tech.) T18 Progress of the feeble biological signal measurement technique by spintronics and magnetics

Keiichi Nagasaka (Tokyo Electron Limited) T26 What is next killer application after display? Leading edge technology of oxide semicondutor

Keisuke Ide (Tokyo Inst. of Tech.) T26 What is next killer application after display? Leading edge technology of oxide semicondutor

Keita Sakai (CANON INC.) T12 Advanced Surface and Interface Technologies for Micro and Nanoscale Fabrication

Keitaro Tanoi (The Univ. of Tokyo) T3 Various materials for radiation measurements

Kenichi Yamamoto (Hokkaido Univ.) T1 Vocational career education and lifelong learning for realizing skill and technology inheritance

Kenji Ohmori (Inst. for Molecular Sci.) T5 Sciences of Strong Light-Matter Interaction for Tailored Quantum Manipulation

Kenji Setoura (Kobe City College of Tech.) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Kensuke Kobayashi (The Univ. of Tokyo) T17 Quantum Cooperation between Materials and Information

Kentaro Iwami (Tokyo Univ. of Agri. and Tech.) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Kentaro Kinoshita (Tokyo Univ. of Sci.) T11 Machine learning on dielectrics study

Kiyofumi Katagiri (Hiroshima Univ.) T3 Various materials for radiation measurements

Kiyoshi Watanabe (Semiconductor Equipment Association of Japan) NT3 World Stops When Japan Stops! ~ Our Legendary Semiconductor Technologies ~

Kohei Ohnishi (Kyushu Univ.) T19 Emergence of novel superconducting device by spaciotemporal manipulation

Koichi Takahashi (RIKEN) T25 Ultimate Laboratory Automation: Semiconductor Giga Fab as a Giant Robotic Experimenter?

Koji Asakawa (Kioxia Corporation) T12 Advanced Surface and Interface Technologies for Micro and Nanoscale Fabrication

Koji Kimoto (NIMS) T2 Materials with Hyperordered Structures and their Applications

Kosuke Urushihara (CANON INC.) NT3 World Stops When Japan Stops! ~ Our Legendary Semiconductor Technologies ~

Kotaro Obata (RIKEN) T6 Recent Progress of laser ablation

Kouki Sato (Muroran Inst. of Tech.) T16 What is Plasma-Driven Science - Expectations for New Developments in Plasma Processes

Kyoko Namura (Kyoto Univ.) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Makoto Konagai (Tokyo City Univ.) NT1 How can Applied Physics accelerate the green transformation for the sustainable future?

Mamoru Tamura (Osaka Univ.) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Masaharu Shiratani (Kyushu Univ.) T16 What is Plasma-Driven Science - Expectations for New Developments in Plasma Processes

Masahiko Inami (The Univ. of Tokyo) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Masahiko Ishino (QST) T6 Recent Progress of laser ablation

Masahiko Kimura ( Murata Manufacturing Co., Ltd.) T20 Cutting edge nanotechnology for virus detection -Realization of a pandemic-free society with graphene FET sensors capable of rapid detection of human infectious viruses-

Masahisa Fujino (AIST) T24 Connection : From BEOL to Tiplet, and to the Future

Masakazu Oikawa (QST) T15 Latest trends in ion beam analysis

Masaki Hashida (Tokai Univ.) T6 Recent Progress of laser ablation

Masaki Tanaka (Tokyo Univ. of Agri. and Tech.) T22 Control and device application of spontaneous orientation of polar molecules

Masamichi Sakagami (Tamagawa Univ.) T14 Frontiers of information processing and generation in brains and inanimate autonomous distributed systems

Masanobu Iwanaga (NIMS) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Masaru Hori (Nagoya Univ.) NT1 How can Applied Physics accelerate the green transformation for the sustainable future?

Masaru Kato (Osaka Metropolitan Univ.) T19 Emergence of novel superconducting device by spaciotemporal manipulation

Masashi Miyata (NTT) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Masateru Taniguchi (Osaka Univ.) T20 Cutting edge nanotechnology for virus detection -Realization of a pandemic-free society with graphene FET sensors capable of rapid detection of human infectious viruses-

Megumi Taoka (GLOBIS Univ. MBA Program) NT5 Diversity & Inclusion with Various Distinct Perspectives

Mikihiko Oogane (Tohoku Univ.) T18 Progress of the feeble biological signal measurement technique by spintronics and magnetics

Mikihiro Yokozeki (Sony Semiconductor Solutions Corporation) NT2 Got Talent in Japan -KOSEN & JSAP-

Mikio Iwamura (NTT QONOQ, INC.) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Motoaki Bamba (Kyoto Univ.) T5 Sciences of Strong Light-Matter Interaction for Tailored Quantum Manipulation

Mutsuko Hatano (Tokyo Inst. of Tech.) NT5 Diversity & Inclusion with Various Distinct Perspectives

Mutsumi Kimura (Ryukoku Univ.) T26 What is next killer application after display? Leading edge technology of oxide semicondutor

Naoki Matsushima (Avatar Robot Cafe) NT5 Diversity & Inclusion with Various Distinct Perspectives

Naoki Ogawa (RIKEN) T5 Sciences of Strong Light-Matter Interaction for Tailored Quantum Manipulation

Naoya Morioka (Kyoto Univ.) T13 The leading-edge research on quantum science and technology based on quantum bits and spin defects in solid-state materials

Nazanin Bassiri-Gharb (Georgia Inst. of Tech.) T11 Machine learning on dielectrics study

Nobu Kuzuu (Fukui Univ.) T1 Vocational career education and lifelong learning for realizing skill and technology inheritance

Norikazu Kinoshita (Shimizu Co.) T15 Latest trends in ion beam analysis

Norikazu Mizuochi (Kyoto Univ.) T13 The leading-edge research on quantum science and technology based on quantum bits and spin defects in solid-state materials

Noriko Chikumoto (Chubu Univ.) NT1 How can Applied Physics accelerate the green transformation for the sustainable future?

Norio Terada (Kagoshima Univ.) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Pohling Then (SCREEN Semiconductor Solutions Co., Ltd.) NT3 World Stops When Japan Stops! ~ Our Legendary Semiconductor Technologies ~

Renshi Sawada (Palmens Co. Ltd.) T27 Trends and Prospects of MEMS and Microfabrication Technologies Contributing to the With-Covid-19 Era

Ryo Matsumoto (NIMS) NT2 Got Talent in Japan -KOSEN & JSAP-

Ryo Okamoto (Kyoto Univ.) T19 Emergence of novel superconducting device by spaciotemporal manipulation

Ryota Kabe (OIST) T3 Various materials for radiation measurements

Ryota Shimizu (Tokyo Inst. of Tech.) T10 Frontiers on research of hydrate materials -Current status, subjects, and prospects of materials development and their functionalities

Ryuichi Matsuki (Shinko Electric Industries Co., Ltd. ) T24 Connection : From BEOL to Tiplet, and to the Future

Sachiko Yoshihashi (Nagoya Univ.) NT2 Got Talent in Japan -KOSEN & JSAP-

Satoshi Hamaguchi (Osaka Univ.) T16 What is Plasma-Driven Science - Expectations for New Developments in Plasma Processes

Satoshi Iihama (Tohoku Univ.) T5 Sciences of Strong Light-Matter Interaction for Tailored Quantum Manipulation

Satoshi Ishii (NIMS) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Satoshi Itoh (NEDO) NT1 How can Applied Physics accelerate the green transformation for the sustainable future?

Satoshi Kurihara (Keio Univ.) T14 Frontiers of information processing and generation in brains and inanimate autonomous distributed systems

Seigo Tarucha (RIKEN) T29 Latest trend of device technologies for quantum computing

Seiichi Takamatsu (The Univ. of Tokyo) T27 Trends and Prospects of MEMS and Microfabrication Technologies Contributing to the With-Covid-19 Era

Shigeo Yoshida (Tokai Univ.) T1 Vocational career education and lifelong learning for realizing skill and technology inheritance

Shigeru Niki (NEDO) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Shigetaka Tomiya (Sony Semiconductor Solutions Corporation) T16 What is Plasma-Driven Science - Expectations for New Developments in Plasma Processes

Shiho Tokonami (Osaka Metropolitan Univ.) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Shin Yabukami (Tohoku Univ.) T18 Progress of the feeble biological signal measurement technique by spintronics and magnetics

Shin-ichi Orimo (Tohoku Univ.) T10 Frontiers on research of hydrate materials -Current status, subjects, and prospects of materials development and their functionalities

Shinichi Ouchi (AIST) T24 Connection : From BEOL to Tiplet, and to the Future

Shinichiro Iwai (Tohoku Univ.) T5 Sciences of Strong Light-Matter Interaction for Tailored Quantum Manipulation

Shinnosuke Iwaki (Virtual Cast Inc.) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Shinpei Ogawa (Mitsubishi Electric Corporation) T28 Recent progresses of device applications of low-dimensional materials

Shiro Kawabata (AIST) T17 Quantum Cooperation between Materials and Information

Shoko Utsunomiya (Amazon Web Services Japan G.K.) T17 Quantum Cooperation between Materials and Information

Shouta Ushiba ( Murata Manufacturing Co., Ltd.) T20 Cutting edge nanotechnology for virus detection -Realization of a pandemic-free society with graphene FET sensors capable of rapid detection of human infectious viruses-

Shuji Ikeda (tei solutions) T25 Ultimate Laboratory Automation: Semiconductor Giga Fab as a Giant Robotic Experimenter?

Shun Muroga (AIST) T16 What is Plasma-Driven Science - Expectations for New Developments in Plasma Processes

Shunsuke Murai (Kyoto Univ.) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Shunsuke Sato (Univ. of Tsukuba) T5 Sciences of Strong Light-Matter Interaction for Tailored Quantum Manipulation

Shuntaro Tani (The Univ. of Tokyo) T5 Sciences of Strong Light-Matter Interaction for Tailored Quantum Manipulation

Stefan Facsko (Helmholtz-Zentrum Dresden-Rossendorf) T15 Latest trends in ion beam analysis

Taichi Goto (Tohoku Univ.) NT2 Got Talent in Japan -KOSEN & JSAP-

Takaaki Suzuki (Gunma Univ.) T12 Advanced Surface and Interface Technologies for Micro and Nanoscale Fabrication

Takaaki Yano (Tokushima Univ.) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Takafumi Fukushima (Tohoku Univ.) T24 Connection : From BEOL to Tiplet, and to the Future

Takafumi Kojima (Nat'l Astronomical Observatory of Japan) T19 Emergence of novel superconducting device by spaciotemporal manipulation

Takahiko Takewaki (Mitsubishi Chemical Corporation) T2 Materials with Hyperordered Structures and their Applications

Takahiro Kikuchi (AIST) T19 Emergence of novel superconducting device by spaciotemporal manipulation

Takao Aoki (Waseda Univ.) T29 Latest trend of device technologies for quantum computing

Takao Aoki (Waseda Univ.) T17 Quantum Cooperation between Materials and Information

Takashi Mori (RIKEN) T17 Quantum Cooperation between Materials and Information

Takayuki Iwasaki (Tokyo Inst. of Tech.) T13 The leading-edge research on quantum science and technology based on quantum bits and spin defects in solid-state materials

Takayuki Negami (Ritsumeikan Univ.) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Takeaki Yajima (Kyushu Univ.) T11 Machine learning on dielectrics study

Takehiro Kumakura (HORIBA STEC, Co., Ltd.) NT3 World Stops When Japan Stops! ~ Our Legendary Semiconductor Technologies ~

Takeo Watanabe (Univ. of Hyogo) T12 Advanced Surface and Interface Technologies for Micro and Nanoscale Fabrication

Takeshi Fujiwara (AIST) T3 Various materials for radiation measurements

Takeshi Ohshima (QST) T13 The leading-edge research on quantum science and technology based on quantum bits and spin defects in solid-state materials

Takumi Sannomiya (Tokyo Inst. of Tech.) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Takuro Ideguchi (The Univ. of Tokyo) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Takuya Hoshina (Tokyo Inst. of Tech.) T11 Machine learning on dielectrics study

Taro Hitosugi (The Univ. of Tokyo) T25 Ultimate Laboratory Automation: Semiconductor Giga Fab as a Giant Robotic Experimenter?

Taro Wakamura (NTT) T19 Emergence of novel superconducting device by spaciotemporal manipulation

Tatsuhiko Higashiki (KIOXIA Holdings Corporation) NT3 World Stops When Japan Stops! ~ Our Legendary Semiconductor Technologies ~

Tatsuro Goda (Toyo Univ.) T27 Trends and Prospects of MEMS and Microfabrication Technologies Contributing to the With-Covid-19 Era

Teruo Kanki (Osaka Univ.) T14 Frontiers of information processing and generation in brains and inanimate autonomous distributed systems

Tetsuo Sakka (Kyoto Univ.) T6 Recent Progress of laser ablation

Tetsuro Tsuji (Kyoto Univ.) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Tetsuya Aramoto (Idemitsu Kosan Co., Ltd.) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Tetsuya Hama (The Univ. of Tokyo) T22 Control and device application of spontaneous orientation of polar molecules

Tetsuya Kogita (Toray Research Center, Inc.) T15 Latest trends in ion beam analysis

Tetsuya Tatsumi (Sony Semiconductor Solutions Corporation) NT3 World Stops When Japan Stops! ~ Our Legendary Semiconductor Technologies ~

Tomohiro Nozaki (Tokyo Inst. of Tech.) T16 What is Plasma-Driven Science - Expectations for New Developments in Plasma Processes

Tomohito Otobe (QST) T6 Recent Progress of laser ablation

Tomoko Yoshida (Osaka Metropolitan Univ.) T16 What is Plasma-Driven Science - Expectations for New Developments in Plasma Processes

Tomoya Asaba (Kyoto Univ.) T17 Quantum Cooperation between Materials and Information

Toshiharu Saiki (Keio Univ.) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Toshihide Kobayashi (Sangyo Times, Inc.) T25 Ultimate Laboratory Automation: Semiconductor Giga Fab as a Giant Robotic Experimenter?

Toshihide Nabatame (NIMS) T26 What is next killer application after display? Leading edge technology of oxide semicondutor

Toshikazu Hashimoto (NTT) T27 Trends and Prospects of MEMS and Microfabrication Technologies Contributing to the With-Covid-19 Era

Toshio Kawahara (Chubu Univ.) T20 Cutting edge nanotechnology for virus detection -Realization of a pandemic-free society with graphene FET sensors capable of rapid detection of human infectious viruses-

Toshiro Hiramoto (The Univ. of Tokyo) NT1 How can Applied Physics accelerate the green transformation for the sustainable future?

Tsuyoshi Miyazaki (NIMS) T2 Materials with Hyperordered Structures and their Applications

Wen-Hsin Chang (AIST) T12 Advanced Surface and Interface Technologies for Micro and Nanoscale Fabrication

Yasufumi Fujiwara (Osaka Univ.) T2 Materials with Hyperordered Structures and their Applications

Yasuhiro Morikawa (ULVAC, Inc.) T24 Connection : From BEOL to Tiplet, and to the Future

Yasuhiro Katsumata (JST) T28 Recent progresses of device applications of low-dimensional materials

Yasutomo Ota (Keio Univ.) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Yohei Onodera (Kyoto Univ.) T2 Materials with Hyperordered Structures and their Applications

Yohei Watanabe (Kyoto Prefectural Univ. of Med.) T20 Cutting edge nanotechnology for virus detection -Realization of a pandemic-free society with graphene FET sensors capable of rapid detection of human infectious viruses-

Yohio Mita (The Univ. of Tokyo) T12 Advanced Surface and Interface Technologies for Micro and Nanoscale Fabrication

Yoichi Motoori (Murata Machinery, Ltd.) T25 Ultimate Laboratory Automation: Semiconductor Giga Fab as a Giant Robotic Experimenter?

Yoshiaki Adachi (Kanazawa Inst. of Tech.) T18 Progress of the feeble biological signal measurement technique by spintronics and magnetics

Yoshihiko Horio (Tohoku Univ.) T14 Frontiers of information processing and generation in brains and inanimate autonomous distributed systems

Yoshihiro Hayashi (Keio Univ.) NT3 World Stops When Japan Stops! ~ Our Legendary Semiconductor Technologies ~

Yoshihisa Kagawa (Sony Semiconductor Solutions Corporation) NT3 World Stops When Japan Stops! ~ Our Legendary Semiconductor Technologies ~

Yoshitaro Nose (Kyoto Univ.) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Yoshiyuki Miyamoto (AIST) T13 The leading-edge research on quantum science and technology based on quantum bits and spin defects in solid-state materials

Yosuke Ito (Kyoto Univ.) T18 Progress of the feeble biological signal measurement technique by spintronics and magnetics

Yuichi Kozawa (Tohoku Univ.) T6 Recent Progress of laser ablation

Yuichi Yamazaki (QST) T13 The leading-edge research on quantum science and technology based on quantum bits and spin defects in solid-state materials

Yukari Katsura (NIMS) NT5 Diversity & Inclusion with Various Distinct Perspectives

Yuki Ashiba (AIST) T27 Trends and Prospects of MEMS and Microfabrication Technologies Contributing to the With-Covid-19 Era

Yukiko Kamikawa (AIST) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Yukio Kawano (Chuo Univ.) T28 Recent progresses of device applications of low-dimensional materials

Yunosuke Sakai (KOKUSAI ELECTRIC CORPORATION) NT3 World Stops When Japan Stops! ~ Our Legendary Semiconductor Technologies ~

Yutaka Noguchi (Meiji Univ.) T22 Control and device application of spontaneous orientation of polar molecules

Yuya Tanaka (Gunma Univ.) T22 Control and device application of spontaneous orientation of polar molecules

Erika Kawakami (RIKEN) T29 Latest trend of device technologies for quantum computing

Hideo Kosaka (Yokohama Nat'l Univ.) T29 Latest trend of device technologies for quantum computing

Hirotaka Terai (NICT) T29 Latest trend of device technologies for quantum computing

Jaw-Shen Tsai (Tokyo Univ. of Sci.) T29 Latest trend of device technologies for quantum computing

Seigo Tarucha (RIKEN) T29 Latest trend of device technologies for quantum computing

Takao Aoki (Waseda Univ.) T29 Latest trend of device technologies for quantum computing

Hiroshi Masuko (Azabu High School) T1 Vocational career education and lifelong learning for realizing skill and technology inheritance

Kenichi Yamamoto (Hokkaido Univ.) T1 Vocational career education and lifelong learning for realizing skill and technology inheritance

Nobu Kuzuu (Fukui Univ.) T1 Vocational career education and lifelong learning for realizing skill and technology inheritance

Shigeo Yoshida (Tokai Univ.) T1 Vocational career education and lifelong learning for realizing skill and technology inheritance

Dongsheng Yuan (NIMS) T3 Various materials for radiation measurements

Hirokazu Masai (AIST) T3 Various materials for radiation measurements

Jiro Matsuo (Kyoto Univ.) T15 Latest trends in ion beam analysis

Katsuhiro Muramatsu (Konoshima Chemical Co.,Ltd. ) T3 Various materials for radiation measurements

Kazuo Tanaka (Kyoto Univ.) T3 Various materials for radiation measurements

Keitaro Tanoi (The Univ. of Tokyo) T3 Various materials for radiation measurements

Kiyofumi Katagiri (Hiroshima Univ.) T3 Various materials for radiation measurements

Koji Kimoto (NIMS) T2 Materials with Hyperordered Structures and their Applications

Masakazu Oikawa (QST) T15 Latest trends in ion beam analysis

Norikazu Kinoshita (Shimizu Co.) T15 Latest trends in ion beam analysis

Ryota Kabe (OIST) T3 Various materials for radiation measurements

Stefan Facsko (Helmholtz-Zentrum Dresden-Rossendorf) T15 Latest trends in ion beam analysis

Takahiko Takewaki (Mitsubishi Chemical Corporation) T2 Materials with Hyperordered Structures and their Applications

Takeshi Fujiwara (AIST) T3 Various materials for radiation measurements

Tetsuya Kogita (Toray Research Center, Inc.) T15 Latest trends in ion beam analysis

Tsuyoshi Miyazaki (NIMS) T2 Materials with Hyperordered Structures and their Applications

Yasufumi Fujiwara (Osaka Univ.) T2 Materials with Hyperordered Structures and their Applications

Yohei Onodera (Kyoto Univ.) T2 Materials with Hyperordered Structures and their Applications

Daisuke Nakamura (Kyushu Univ.) T6 Recent Progress of laser ablation

Dong Wook Kim (Aromajoin Corporation) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Hideki Fujiwara (Hokkai-Gakuen Univ.) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Hideo Fujikake (Tohoku Univ.) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Hirokazu Tahara (Kyoto Univ.) T5 Sciences of Strong Light-Matter Interaction for Tailored Quantum Manipulation

Hiroshi Mukawa (Sony Group Corporation) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Hiroshi Sugimoto (Kobe Univ.) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Hiroshi Yoshikawa (Nihon Univ.) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Hirotsugu Yamamoto (Utsunomiya Univ.) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Hiroyuki Shinoda (The Univ. of Tokyo) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Homei Miyashita (Meiji Univ.) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Junichi Takahara (Osaka Univ.) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Kenji Ohmori (Inst. for Molecular Sci.) T5 Sciences of Strong Light-Matter Interaction for Tailored Quantum Manipulation

Kenji Setoura (Kobe City College of Tech.) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Kentaro Iwami (Tokyo Univ. of Agri. and Tech.) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Kotaro Obata (RIKEN) T6 Recent Progress of laser ablation

Kyoko Namura (Kyoto Univ.) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Mamoru Tamura (Osaka Univ.) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Masahiko Inami (The Univ. of Tokyo) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Masahiko Ishino (QST) T6 Recent Progress of laser ablation

Masaki Hashida (Tokai Univ.) T6 Recent Progress of laser ablation

Masanobu Iwanaga (NIMS) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Masashi Miyata (NTT) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Mikio Iwamura (NTT QONOQ, INC.) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Motoaki Bamba (Kyoto Univ.) T5 Sciences of Strong Light-Matter Interaction for Tailored Quantum Manipulation

Naoki Ogawa (RIKEN) T5 Sciences of Strong Light-Matter Interaction for Tailored Quantum Manipulation

Satoshi Iihama (Tohoku Univ.) T5 Sciences of Strong Light-Matter Interaction for Tailored Quantum Manipulation

Satoshi Ishii (NIMS) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Shiho Tokonami (Osaka Metropolitan Univ.) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Shinichiro Iwai (Tohoku Univ.) T5 Sciences of Strong Light-Matter Interaction for Tailored Quantum Manipulation

Shinnosuke Iwaki (Virtual Cast Inc.) T8 Applied Physics Accelerating the Metaverse - Towards Multimodality in AR/VR-

Shunsuke Murai (Kyoto Univ.) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Shunsuke Sato (Univ. of Tsukuba) T5 Sciences of Strong Light-Matter Interaction for Tailored Quantum Manipulation

Shuntaro Tani (The Univ. of Tokyo) T5 Sciences of Strong Light-Matter Interaction for Tailored Quantum Manipulation

Takaaki Yano (Tokushima Univ.) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Takumi Sannomiya (Tokyo Inst. of Tech.) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Takuro Ideguchi (The Univ. of Tokyo) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Tetsuo Sakka (Kyoto Univ.) T6 Recent Progress of laser ablation

Tetsuro Tsuji (Kyoto Univ.) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Tomohito Otobe (QST) T6 Recent Progress of laser ablation

Toshiharu Saiki (Keio Univ.) T7 New horizon in interdisciplinary photonics pioneered by nano-photothermal conversion

Yasutomo Ota (Keio Univ.) T9 Mietronics -Physics and applications of Dielectric Mie Resonators

Yuichi Kozawa (Tohoku Univ.) T6 Recent Progress of laser ablation

Agnes Tixier-Mita (The Univ. of Tokyo) T12 Advanced Surface and Interface Technologies for Micro and Nanoscale Fabrication

Akira Ohtomo (Tokyo Inst. of Tech.) T10 Frontiers on research of hydrate materials -Current status, subjects, and prospects of materials development and their functionalities

Eisuke Abe (RIKEN) T13 The leading-edge research on quantum science and technology based on quantum bits and spin defects in solid-state materials

Hidekazu Tanaka (Osaka Univ.) T10 Frontiers on research of hydrate materials -Current status, subjects, and prospects of materials development and their functionalities

Hiroki Moriwake (Japan Fine Ceramics Center) T11 Machine learning on dielectrics study

Hiroshi Takatsu (Kyoto Univ.) T10 Frontiers on research of hydrate materials -Current status, subjects, and prospects of materials development and their functionalities

Hiroshi Toshiyoshi (The Univ. of Tokyo) T12 Advanced Surface and Interface Technologies for Micro and Nanoscale Fabrication

Jun Yoneda (Tokyo Inst. of Tech.) T13 The leading-edge research on quantum science and technology based on quantum bits and spin defects in solid-state materials

Kasidit Toprasertpong (The Univ. of Tokyo) T11 Machine learning on dielectrics study

Katsuya Shimizu (Osaka Univ.) T10 Frontiers on research of hydrate materials -Current status, subjects, and prospects of materials development and their functionalities

Keita Sakai (CANON INC.) T12 Advanced Surface and Interface Technologies for Micro and Nanoscale Fabrication

Kentaro Kinoshita (Tokyo Univ. of Sci.) T11 Machine learning on dielectrics study

Koji Asakawa (Kioxia Corporation) T12 Advanced Surface and Interface Technologies for Micro and Nanoscale Fabrication

Masamichi Sakagami (Tamagawa Univ.) T14 Frontiers of information processing and generation in brains and inanimate autonomous distributed systems

Naoya Morioka (Kyoto Univ.) T13 The leading-edge research on quantum science and technology based on quantum bits and spin defects in solid-state materials

Nazanin Bassiri-Gharb (Georgia Inst. of Tech.) T11 Machine learning on dielectrics study

Norikazu Mizuochi (Kyoto Univ.) T13 The leading-edge research on quantum science and technology based on quantum bits and spin defects in solid-state materials

Ryota Shimizu (Tokyo Inst. of Tech.) T10 Frontiers on research of hydrate materials -Current status, subjects, and prospects of materials development and their functionalities

Satoshi Kurihara (Keio Univ.) T14 Frontiers of information processing and generation in brains and inanimate autonomous distributed systems

Shin-ichi Orimo (Tohoku Univ.) T10 Frontiers on research of hydrate materials -Current status, subjects, and prospects of materials development and their functionalities

Takaaki Suzuki (Gunma Univ.) T12 Advanced Surface and Interface Technologies for Micro and Nanoscale Fabrication

Takayuki Iwasaki (Tokyo Inst. of Tech.) T13 The leading-edge research on quantum science and technology based on quantum bits and spin defects in solid-state materials

Takeaki Yajima (Kyushu Univ.) T11 Machine learning on dielectrics study

Takeo Watanabe (Univ. of Hyogo) T12 Advanced Surface and Interface Technologies for Micro and Nanoscale Fabrication

Takeshi Ohshima (QST) T13 The leading-edge research on quantum science and technology based on quantum bits and spin defects in solid-state materials

Takuya Hoshina (Tokyo Inst. of Tech.) T11 Machine learning on dielectrics study

Teruo Kanki (Osaka Univ.) T14 Frontiers of information processing and generation in brains and inanimate autonomous distributed systems

Wen-Hsin Chang (AIST) T12 Advanced Surface and Interface Technologies for Micro and Nanoscale Fabrication

Yohio Mita (The Univ. of Tokyo) T12 Advanced Surface and Interface Technologies for Micro and Nanoscale Fabrication

Yoshihiko Horio (Tohoku Univ.) T14 Frontiers of information processing and generation in brains and inanimate autonomous distributed systems

Yoshiyuki Miyamoto (AIST) T13 The leading-edge research on quantum science and technology based on quantum bits and spin defects in solid-state materials

Yuichi Yamazaki (QST) T13 The leading-edge research on quantum science and technology based on quantum bits and spin defects in solid-state materials

Jiro Matsuo (Kyoto Univ.) T15 Latest trends in ion beam analysis

Masakazu Oikawa (QST) T15 Latest trends in ion beam analysis

Norikazu Kinoshita (Shimizu Co.) T15 Latest trends in ion beam analysis

Stefan Facsko (Helmholtz-Zentrum Dresden-Rossendorf) T15 Latest trends in ion beam analysis

Tetsuya Kogita (Toray Research Center, Inc.) T15 Latest trends in ion beam analysis

Emi Narita (QST) T16 What is Plasma-Driven Science - Expectations for New Developments in Plasma Processes

Kouki Sato (Muroran Inst. of Tech.) T16 What is Plasma-Driven Science - Expectations for New Developments in Plasma Processes

Masaharu Shiratani (Kyushu Univ.) T16 What is Plasma-Driven Science - Expectations for New Developments in Plasma Processes

Satoshi Hamaguchi (Osaka Univ.) T16 What is Plasma-Driven Science - Expectations for New Developments in Plasma Processes

Shigetaka Tomiya (Sony Semiconductor Solutions Corporation) T16 What is Plasma-Driven Science - Expectations for New Developments in Plasma Processes

Shun Muroga (AIST) T16 What is Plasma-Driven Science - Expectations for New Developments in Plasma Processes

Tomohiro Nozaki (Tokyo Inst. of Tech.) T16 What is Plasma-Driven Science - Expectations for New Developments in Plasma Processes

Tomoko Yoshida (Osaka Metropolitan Univ.) T16 What is Plasma-Driven Science - Expectations for New Developments in Plasma Processes

Kazuyuki Kuroyama (The Univ. of Tokyo) T17 Quantum Cooperation between Materials and Information

Kensuke Kobayashi (The Univ. of Tokyo) T17 Quantum Cooperation between Materials and Information

Shiro Kawabata (AIST) T17 Quantum Cooperation between Materials and Information

Shoko Utsunomiya (Amazon Web Services Japan G.K.) T17 Quantum Cooperation between Materials and Information

Takao Aoki (Waseda Univ.) T17 Quantum Cooperation between Materials and Information

Takashi Mori (RIKEN) T17 Quantum Cooperation between Materials and Information

Tomoya Asaba (Kyoto Univ.) T17 Quantum Cooperation between Materials and Information

Daichi Chiba (Osaka Univ.) T18 Progress of the feeble biological signal measurement technique by spintronics and magnetics

Keigo Arai (Tokyo Inst. of Tech.) T18 Progress of the feeble biological signal measurement technique by spintronics and magnetics

Mikihiko Oogane (Tohoku Univ.) T18 Progress of the feeble biological signal measurement technique by spintronics and magnetics

Shin Yabukami (Tohoku Univ.) T18 Progress of the feeble biological signal measurement technique by spintronics and magnetics

Yoshiaki Adachi (Kanazawa Inst. of Tech.) T18 Progress of the feeble biological signal measurement technique by spintronics and magnetics

Yosuke Ito (Kyoto Univ.) T18 Progress of the feeble biological signal measurement technique by spintronics and magnetics

Kohei Ohnishi (Kyushu Univ.) T19 Emergence of novel superconducting device by spaciotemporal manipulation

Masaru Kato (Osaka Metropolitan Univ.) T19 Emergence of novel superconducting device by spaciotemporal manipulation

Ryo Okamoto (Kyoto Univ.) T19 Emergence of novel superconducting device by spaciotemporal manipulation

Takafumi Kojima (Nat'l Astronomical Observatory of Japan) T19 Emergence of novel superconducting device by spaciotemporal manipulation

Takahiro Kikuchi (AIST) T19 Emergence of novel superconducting device by spaciotemporal manipulation

Taro Wakamura (NTT) T19 Emergence of novel superconducting device by spaciotemporal manipulation

Atsushi Sugita (Shizuoka Univ.) T22 Control and device application of spontaneous orientation of polar molecules

Kazuaki Sawada (Toyohashi Univ. of Tech.) T20 Cutting edge nanotechnology for virus detection -Realization of a pandemic-free society with graphene FET sensors capable of rapid detection of human infectious viruses-

Kazuhiko Matsumoto (Osaka Univ.) T20 Cutting edge nanotechnology for virus detection -Realization of a pandemic-free society with graphene FET sensors capable of rapid detection of human infectious viruses-

Masahiko Kimura ( Murata Manufacturing Co., Ltd.) T20 Cutting edge nanotechnology for virus detection -Realization of a pandemic-free society with graphene FET sensors capable of rapid detection of human infectious viruses-

Masaki Tanaka (Tokyo Univ. of Agri. and Tech.) T22 Control and device application of spontaneous orientation of polar molecules

Masateru Taniguchi (Osaka Univ.) T20 Cutting edge nanotechnology for virus detection -Realization of a pandemic-free society with graphene FET sensors capable of rapid detection of human infectious viruses-

Shouta Ushiba ( Murata Manufacturing Co., Ltd.) T20 Cutting edge nanotechnology for virus detection -Realization of a pandemic-free society with graphene FET sensors capable of rapid detection of human infectious viruses-

Tetsuya Hama (The Univ. of Tokyo) T22 Control and device application of spontaneous orientation of polar molecules

Toshio Kawahara (Chubu Univ.) T20 Cutting edge nanotechnology for virus detection -Realization of a pandemic-free society with graphene FET sensors capable of rapid detection of human infectious viruses-

Yohei Watanabe (Kyoto Prefectural Univ. of Med.) T20 Cutting edge nanotechnology for virus detection -Realization of a pandemic-free society with graphene FET sensors capable of rapid detection of human infectious viruses-

Yutaka Noguchi (Meiji Univ.) T22 Control and device application of spontaneous orientation of polar molecules

Yuya Tanaka (Gunma Univ.) T22 Control and device application of spontaneous orientation of polar molecules

Akira Yamada (Tokyo Inst. of Tech.) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Atsushi Wada (Toshiba Corporation) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Ayaka Kanai (Nagaoka Univ. of Tech.) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Eisuke Tokumitsu (Japan Advanced Inst. of Sci. and Tech.) T26 What is next killer application after display? Leading edge technology of oxide semicondutor

Hideharu Amano (Keio Univ.) T25 Ultimate Laboratory Automation: Semiconductor Giga Fab as a Giant Robotic Experimenter?

Hiroshi Miyajima (Sumitomo Precision Products CO.,LTD.) T27 Trends and Prospects of MEMS and Microfabrication Technologies Contributing to the With-Covid-19 Era

Hiroyuki Fujita (Tokyo City Univ.) T25 Ultimate Laboratory Automation: Semiconductor Giga Fab as a Giant Robotic Experimenter?

Hitoshi Kunitake (Semiconductor Energy Laboratory Co., Ltd.) T26 What is next killer application after display? Leading edge technology of oxide semicondutor

Kazuyoshi Ueno (Shibaura Inst. of Tech.) T24 Connection : From BEOL to Tiplet, and to the Future

Keiichi Nagasaka (Tokyo Electron Limited) T26 What is next killer application after display? Leading edge technology of oxide semicondutor

Keisuke Ide (Tokyo Inst. of Tech.) T26 What is next killer application after display? Leading edge technology of oxide semicondutor

Koichi Takahashi (RIKEN) T25 Ultimate Laboratory Automation: Semiconductor Giga Fab as a Giant Robotic Experimenter?

Masahisa Fujino (AIST) T24 Connection : From BEOL to Tiplet, and to the Future

Mutsumi Kimura (Ryukoku Univ.) T26 What is next killer application after display? Leading edge technology of oxide semicondutor

Norio Terada (Kagoshima Univ.) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Renshi Sawada (Palmens Co. Ltd.) T27 Trends and Prospects of MEMS and Microfabrication Technologies Contributing to the With-Covid-19 Era

Ryuichi Matsuki (Shinko Electric Industries Co., Ltd. ) T24 Connection : From BEOL to Tiplet, and to the Future

Seiichi Takamatsu (The Univ. of Tokyo) T27 Trends and Prospects of MEMS and Microfabrication Technologies Contributing to the With-Covid-19 Era

Shigeru Niki (NEDO) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Shinichi Ouchi (AIST) T24 Connection : From BEOL to Tiplet, and to the Future

Shuji Ikeda (tei solutions) T25 Ultimate Laboratory Automation: Semiconductor Giga Fab as a Giant Robotic Experimenter?

Takafumi Fukushima (Tohoku Univ.) T24 Connection : From BEOL to Tiplet, and to the Future

Takayuki Negami (Ritsumeikan Univ.) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Taro Hitosugi (The Univ. of Tokyo) T25 Ultimate Laboratory Automation: Semiconductor Giga Fab as a Giant Robotic Experimenter?

Tatsuro Goda (Toyo Univ.) T27 Trends and Prospects of MEMS and Microfabrication Technologies Contributing to the With-Covid-19 Era

Tetsuya Aramoto (Idemitsu Kosan Co., Ltd.) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Toshihide Kobayashi (Sangyo Times, Inc.) T25 Ultimate Laboratory Automation: Semiconductor Giga Fab as a Giant Robotic Experimenter?

Toshihide Nabatame (NIMS) T26 What is next killer application after display? Leading edge technology of oxide semicondutor

Toshikazu Hashimoto (NTT) T27 Trends and Prospects of MEMS and Microfabrication Technologies Contributing to the With-Covid-19 Era

Yasuhiro Morikawa (ULVAC, Inc.) T24 Connection : From BEOL to Tiplet, and to the Future

Yoichi Motoori (Murata Machinery, Ltd.) T25 Ultimate Laboratory Automation: Semiconductor Giga Fab as a Giant Robotic Experimenter?

Yoshitaro Nose (Kyoto Univ.) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Yuki Ashiba (AIST) T27 Trends and Prospects of MEMS and Microfabrication Technologies Contributing to the With-Covid-19 Era

Yukiko Kamikawa (AIST) T23 Research and Development Trends in Polycrystalline Thin-Film Solar Cells

Hideyuki Maki (Keio Univ.) T28 Recent progresses of device applications of low-dimensional materials

Hirotomo Nishihara (Tohoku Univ.) T28 Recent progresses of device applications of low-dimensional materials

Hitoshi Saito (FUJITSU SEMICONDUCTOR MEMORY SOLUTION LIMITED) T28 Recent progresses of device applications of low-dimensional materials

Shinpei Ogawa (Mitsubishi Electric Corporation) T28 Recent progresses of device applications of low-dimensional materials

Yasuhiro Katsumata (JST) T28 Recent progresses of device applications of low-dimensional materials

Yukio Kawano (Chuo Univ.) T28 Recent progresses of device applications of low-dimensional materials