Invited Speakers
Symposium (non-technical)
Eiichi Yamaguchi
(Kyoto Univ.)
NT3 To accelerate social implementations of applied-physic technologies related to integrated circuits
Kaoru Tamada
(Kyushu Univ.)
NT1 Development of emerging talent in applied physics through diversity promotion - what JSAP can/should do -
Kazumasa Uetsuki
(USHIO Inc.)
NT2 English Title TBA
Kazunari Ishimaru
(Kioxia Corporation)
NT3 To accelerate social implementations of applied-physic technologies related to integrated circuits
Ken Shimizu
(Accenture Japan Ltd.)
NT3 To accelerate social implementations of applied-physic technologies related to integrated circuits
Masatomo Takahashi
(TOKYO SEIMITSU CO., LTD.)
NT2 English Title TBA
Naoto Ohkawa
(Canon Inc.)
NT2 English Title TBA
Nobuyuki Hashimoto
(Citizen Watch Co., Ltd.)
NT1 Development of emerging talent in applied physics through diversity promotion - what JSAP can/should do -
Satoko Iida
(Sony Semiconductor Solutions Corporation)
NT2 English Title TBA
Satoshi Hasegawa
(Kioxia Corporation)
NT2 English Title TBA
Satoshi Shibata
(Panasonic Corporation)
NT3 To accelerate social implementations of applied-physic technologies related to integrated circuits
Shinji Koh
(Aoyama Gakuin Univ.)
NT1 Development of emerging talent in applied physics through diversity promotion - what JSAP can/should do -
Takumi Moriyama
(HORIBA Group)
NT2 English Title TBA
Teruo Hirayama
(Sony Corporation)
NT3 To accelerate social implementations of applied-physic technologies related to integrated circuits
Yasumitsu Orii
(NAGASE & CO., LTD.)
NT3 To accelerate social implementations of applied-physic technologies related to integrated circuits
Yoichi Oshima
(Tokyo Tech)
To accelerate social implementations of applied-physic technologies related to integrated circuits
Yoshihiko Isobe
(Denso Corporation)
NT2 English Title TBA
Yoshito Kamaji
(Hitachi High-Technologies Corporation)
NT2 English Title TBA
Yutaka Tokiwa
(fomer Director General of NIER, Ntl. Inst. for Education Policy Research)
NT1 Development of emerging talent in applied physics through diversity promotion - what JSAP can/should do -
Forcused Session "AI Electronics"
Fumio Uchikoba
(Nihon Univ.)
T1 Emerging devices, architectures and systems for the post-Moore's Law era
Hayato Iwamoto
(Sony Semiconductor Solutions Corporation)
T1 Emerging devices, architectures and systems for the post-Moore's Law era
Kazuya Masu
(Tokyo Tech)
T1 Emerging devices, architectures and systems for the post-Moore's Law era
Norishige Morimoto
(IBM Japan)
T1 Emerging devices, architectures and systems for the post-Moore's Law era
Taisuke Iwai
(FUJITSU LABORATORIES LTD.)
T1 Emerging devices, architectures and systems for the post-Moore's Law era
Tetsuo Endo
(Power Spin Inc.)
T1 Emerging devices, architectures and systems for the post-Moore's Law era
1.Interdisciplinary Physics and Related Areas of Science and Technology
Kazuto Kumagai
(Fukui Prefectural Tsuruga High School)
T2 Realization, Learning, Environment and Energy
Kazuya Oguri
(Tokai Univ.)
T2 Realization, Learning, Environment and Energy
Masaaki Yoshida
(Ntl Inst. of Tech., Hachinohe College)
T2 Realization, Learning, Environment and Energy
Nobu Kuzuu
(Univ. of Fukui )
T2 Realization, Learning, Environment and Energy
Shingo Ebata
(Tokyo Tech)
1.3 Novel technologies and interdisciplinary engineering
Shiori Asakawa
(Univ. of Yamanashi)
1.6 Ultrasonics
2.Ionizing Radiation
Aoto Fukushima
(Tokyo Metropolitan Univ.)
2.3 Application, radiation generators, new technology
Chihiro Inoue
(Tohoku Univ.)
T3 Recent Advances in Radioisotope Imaging Technology for Plant Science Research
Jun Furukawa
(Univ. of Tsukuba)
T3 Recent Advances in Radioisotope Imaging Technology for Plant Science Research
Nobuo Suzui
(QST)
T3 Recent Advances in Radioisotope Imaging Technology for Plant Science Research
Ryohei Sugita
(The Univ. of Tokyo)
T3 Recent Advances in Radioisotope Imaging Technology for Plant Science Research
Takashi Kuromori
(RIKEN)
T3 Recent Advances in Radioisotope Imaging Technology for Plant Science Research
Tomoko Nakanishi
(The Univ. of Tokyo)
T3 Recent Advances in Radioisotope Imaging Technology for Plant Science Research
3.Optics and Photonics
Atsushi Ono
(Shizuoka Univ.)
T5 Research progress on laser-induced periodic surface structure ~What has been revealed? How about the technology outlook?~
Atsushi Uchida
(Saitama Univ.)
T4 New developments in computing technique based on optical neural network
Daiki Okazaki
(The Univ. of Tokyo)
3.6 Ultrashort-pulse and high-intensity lasers
Feng-Lei Hong
(Yokohama Ntl Univ.)
3.8 Optical measurement, instrumentation, and sensor
Gouhei Tanaka
(The Univ. of Tokyo)
T4 New developments in computing technique based on optical neural network
Haruyoshi Toyoda
(Hamamatsu Photonics K.K.)
T7 Fundamental and applications of spatial light modulation
Hideki Takami
(Ntl Astronomical Observatory of Japan)
T9 Disturbance of light propagating the fluctuating media: The way how to measure and overcome it
Hideyuki Suzuki
(Osaka Univ.)
T4 New developments in computing technique based on optical neural network
Hiroaki Matsui
(The Univ. of Tokyo)
T8 Nano-Materials Science for MIR-THz photonics
Hiroaki Tada
(Saitma Univ.)
3.8 Optical measurement, instrumentation, and sensor
Hirotaka Terai
(NICT)
T6 Applied physics for quantum computer developments
Hyunsoo Yang
(National Univ. of Singapore)
T8 Nano-Materials Science for MIR-THz photonics
Ikki Morichika
(The Univ. of Tokyo)
T8 Nano-Materials Science for MIR-THz photonics
Ikufumi Katayama
(Yokohama Ntl Univ.)
T8 Nano-Materials Science for MIR-THz photonics
Jaehoon Yu
(Tokyo Tech)
T4 New developments in computing technique based on optical neural network
Junichi Isoya
(Univ. of Tsukuba)
T6 Applied physics for quantum computer developments
Junichiro Kono
(Rice Univ.)
T8 Nano-Materials Science for MIR-THz photonics
Junsuk Rho
(POSTECH)
3.12 Nanoscale optical science and near-field optics
Kazumasa Makise
(AIST)
T6 Applied physics for quantum computer developments
Keigo Masuda
(Chiba Univ.)
3.1 Basic optics and frontier of optics
Kenjiro Kimura
(Kobe Univ.)
T9 Disturbance of light propagating the fluctuating media: The way how to measure and overcome it
Kiyoshi Kobayashi
(Univ. of Yamanashi)
3.12 Nanoscale optical science and near-field optics
Koichi Maruyama
(Team-Opt)
3.2 Equipment optics and materials
Kotaro Hiramatsu
(The Univ. of Tokyo)
3.4 Biomedical optics
Kouji Nawata
(RIKEN)
3.9 Terahertz technologies
Maika Takita
(IBM)
T6 Applied physics for quantum computer developments
Masaaki Sakakura
(Univ. of Southampton)
T7 Fundamental and applications of spatial light modulation
Masahiro Yoshida
(Kyoto Univ.)
3.11 Photonic structures and phenomena
Masaki Hashida
(Kyoto Univ.)
T5 Research progress on laser-induced periodic surface structure ~What has been revealed? How about the technology outlook?~
Masaki Nakagawa
(Osaka Univ.)
T4 New developments in computing technique based on optical neural network
Masayuki Kakehata
(AIST)
T5 Research progress on laser-induced periodic surface structure ~What has been revealed? How about the technology outlook?~
Mitsuo Takeda
(Utsunomiya Univ.)
T9 Disturbance of light propagating the fluctuating media: The way how to measure and overcome it
Noriaki Miura
(Kitami Inst. of Tech.)
T9 Disturbance of light propagating the fluctuating media: The way how to measure and overcome it
Norio KUMADA
(NTT-BRL)
T8 Nano-Materials Science for MIR-THz photonics
Osamu Matoba
(Kobe Univ.)
T7 Fundamental and applications of spatial light modulation
Satoshi Hasegawa
(Utsunomiya Univ.)
T5 Research progress on laser-induced periodic surface structure ~What has been revealed? How about the technology outlook?~
Shiqiang Mike Li
(Agency for Sci., Tech. & Rsch, Singapore (A*STAR))
T8 Nano-Materials Science for MIR-THz photonics
Shota Kita
(NTT-BRL)
3.15 Silicon photonics and integrated photonics
Shunichi Sato
(Tohoku Univ.)
T7 Fundamental and applications of spatial light modulation
Soki Hirayama
(The Univ. of Toyko)
3.3 Information photonics and image engineering
Tadao Tsuruta
(Nikon,retired)
3.1 Basic optics and frontier of optics
Tadashi Kawazoe
(Tokyo Denki Univ.)
T4 New developments in computing technique based on optical neural network
Takahiro Mori
(AIST)
T6 Applied physics for quantum computer developments
Tomoya Kimura
(The Univ. of Tokyo)
3.12 Nanoscale optical science and near-field optics
Toshiharu Saiki
(Keio Univ.)
T8 Nano-Materials Science for MIR-THz photonics
Toshiyuki Kawashima
(Hamamatsu Photonics K.K.)
3.6 Ultrashort-pulse and high-intensity lasers
Wataru Susaki
(OECU)
3.13 Semiconductor optical devices
Yasuhiko Shimotsuma
(Kyoto Univ.)
T5 Research progress on laser-induced periodic surface structure ~What has been revealed? How about the technology outlook?~
Yasutaka Imanaka
(NIMS)
T8 Nano-Materials Science for MIR-THz photonics
Yasuyuki Tsuboi
(Osaka City Univ.)
T5 Research progress on laser-induced periodic surface structure ~What has been revealed? How about the technology outlook?~
Yoshihiko Horio
(Tohoku Univ.)
T4 New developments in computing technique based on optical neural network
Yoshinori Honguh
(Toshiba Corporation)
3.1 Basic optics and frontier of optics
Yosuke Tamada
(Utsunomiya Univ.)
T9 Disturbance of light propagating the fluctuating media: The way how to measure and overcome it
Yuka Takamatsu
(Keio Univ.)
3.1 Basic optics and frontier of optics
Yusuke Ogura
(Osaka Univ.)
T7 Fundamental and applications of spatial light modulation
Yutaka Tabuchi
(The Univ. of Toyko)
T6 Applied physics for quantum computer developments
6.Thin Films and Surfaces
Akira Funahashi
(Keio Univ. )
T13 The fusion of multidimensional measurement technologies and data science toward the advancement of bioimaging and biosensing
Akira Ohtomo
(Tokyo Tech)
6.4 Thin films and New materials
Eisuke Tokumitsu
(JAIST)
T12 New functional memory devices with oxide materials and their physics
Hideki Iba
(Toyota Motor Corporation)
T10 Leading edge of all-solid-state batteries: Basics, challenges, and future prospects
Hideto Imai
(Nissan Arc, LTD.)
T10 Leading edge of all-solid-state batteries: Basics, challenges, and future prospects
Kazumichi Yokota
(AIST)
T13 The fusion of multidimensional measurement technologies and data science toward the advancement of bioimaging and biosensing
Kazunori Takada
(NIMS)
T10 Leading edge of all-solid-state batteries: Basics, challenges, and future prospects
Keiga Fukui
(Tokyo Tech)
6.3 Oxide electronics
Kenji Shiraishi
(Nagoya Univ.)
T12 New functional memory devices with oxide materials and their physics
Kenji Ueda
(Nagoya Univ.)
6.4 Thin films and New materials
Kentaro Kinoshita
(Tokyo Univ. of Science)
T12 New functional memory devices with oxide materials and their physics
Kentarou Yoshimura
(Univ. of Yamanashi)
T13 The fusion of multidimensional measurement technologies and data science toward the advancement of bioimaging and biosensing
Koji Horiba
(High Energy Accelerator Research Organization)
T11 New developments of surface properties and structural analysis by quantum beams
Koji Okajima
(Hokkaido Univ. )
T13 The fusion of multidimensional measurement technologies and data science toward the advancement of bioimaging and biosensing
Marina Yamaguchi
(Kioxia Corporation)
T12 New functional memory devices with oxide materials and their physics
Mitsunori Kurahashi
(NIMS)
T11 New developments of surface properties and structural analysis by quantum beams
Munehiro Tada
(NEC Corporation)
T12 New functional memory devices with oxide materials and their physics
Mutsunori Uenuma
(NAIST)
T12 New functional memory devices with oxide materials and their physics
Naoyuki Sugiyama
(Toray Research Center,Inc.)
T12 New functional memory devices with oxide materials and their physics
Noboru Taguchi
(AIST)
T11 New developments of surface properties and structural analysis by quantum beams
Randy Jalem
(NIMS)
T10 Leading edge of all-solid-state batteries: Basics, challenges, and future prospects
Ryohei Yasukuni
(NAIST)
T13 The fusion of multidimensional measurement technologies and data science toward the advancement of bioimaging and biosensing
Shungo Yamashita
(Kyoto Univ.)
6.2 Carbon-based thin films
Susumu Shiraki
(Nippon Inst. of Tech.)
T10 Leading edge of all-solid-state batteries: Basics, challenges, and future prospects
Takafumi Ishibe
(Osaka Univ.)
9.4 Thermoelectric conversion
Tetsuroh Shirasawa
(AIST)
T11 New developments of surface properties and structural analysis by quantum beams
Tetsuyuki Kodera
(Kanazawa Univ. )
T13 The fusion of multidimensional measurement technologies and data science toward the advancement of bioimaging and biosensing
Yasumasa Takagi
(JASRI)
T11 New developments of surface properties and structural analysis by quantum beams
Yasushi Hoshino
(Kanagawa Univ.)
T11 New developments of surface properties and structural analysis by quantum beams
Yasutoshi Iriyama
(Nagoya Univ.)
T10 Leading edge of all-solid-state batteries: Basics, challenges, and future prospects
Yasutoshi Tsubota
(KOKUSAI ELECTRIC CORPORATION)
T12 New functional memory devices with oxide materials and their physics
Yasuyuki Ozeki
(The Univ. of Tokyo)
T13 The fusion of multidimensional measurement technologies and data science toward the advancement of bioimaging and biosensing
Yoshihiro Hirota
(Tokyo Electron Ltd.)
T12 New functional memory devices with oxide materials and their physics
Yuki Katamune
(Kyushu Inst. of Tech.)
6.2 Carbon-based thin films
Yuuki Adachi
(Osaka Univ.)
6.6 Probe Microscopy
7.Beam Technology and Nanofabrication
Akira Chikamatsu
(The Univ. of Tokyo)
T14 Quantum-beam study of optical functions in transition-metal-compound thin films
Atsushi Ono
(Tohoku Univ.)
T14 Quantum-beam study of optical functions in transition-metal-compound thin films
Eiji Hosono
(AIST)
T15 Progresses and future on EUV and soft x-ray imaging techniques
Eiji Takahashi
(RIKEN)
T15 Progresses and future on EUV and soft x-ray imaging techniques
Hiroki Suga
(The Univ. of Toyko)
T15 Progresses and future on EUV and soft x-ray imaging techniques
Kenji Sakurai
(NIMS)
T14 Quantum-beam study of optical functions in transition-metal-compound thin films
Kiwamu Takehisa
(Lasertec Corporation)
T15 Progresses and future on EUV and soft x-ray imaging techniques
Masahiro Katoh
(Hiroshima Univ.)
T15 Progresses and future on EUV and soft x-ray imaging techniques
Masaki Hada
(Univ. of Tsukuba)
T14 Quantum-beam study of optical functions in transition-metal-compound thin films
Nobuhisa Ishii
(QST)
T14 Quantum-beam study of optical functions in transition-metal-compound thin films
Nobukazu Teranishi
(Univ. of Hyogo)
T15 Progresses and future on EUV and soft x-ray imaging techniques
Shigemi Mizukami
(Tohoku Univ.)
T14 Quantum-beam study of optical functions in transition-metal-compound thin films
Shin-ichi Tanaka
(Ntl Inst. of Techn., Kure College)
T14 Quantum-beam study of optical functions in transition-metal-compound thin films
Shoji Yoshida
(Univ. of Tsukuba)
T14 Quantum-beam study of optical functions in transition-metal-compound thin films
Tomoya Igari
(Univ. of Tsukuba)
7.2 Applications and technologies of electron beams
Yuichi Yamasaki
(NIMS)
T15 Progresses and future on EUV and soft x-ray imaging techniques
Yuya Kubota
(Spring8)
T14 Quantum-beam study of optical functions in transition-metal-compound thin films
8.Plasma Electronics
Hideo Fukuhara
(Kochi Univ.)
T16 Forefront of elucidating the mechanism of plasma-induced biological reactions
Hiromasa Tanaka
(Nagoya Univ.)
T16 Forefront of elucidating the mechanism of plasma-induced biological reactions
Katsuhisa Kitano
(Osaka Univ.)
T16 Forefront of elucidating the mechanism of plasma-induced biological reactions
Koichi Takaki
(Iwate Univ.)
T16 Forefront of elucidating the mechanism of plasma-induced biological reactions
Masafumi Jinno
(Ehime Univ.)
T16 Forefront of elucidating the mechanism of plasma-induced biological reactions
Noritaka Sakakibara
(The Univ. of Tokyo)
8.1 Plasma production and diagnostics
Shinichi Imai
(Hitachi High-Tech Solutions)
8.2 Plasma deposition of thin film, plasma etching and surface treatment
Tomohiro Tanaka
(NINS)
T16 Forefront of elucidating the mechanism of plasma-induced biological reactions
Yuzuru Ikehara
(Chiba Univ.)
T16 Forefront of elucidating the mechanism of plasma-induced biological reactions
9.Applied Materials Science
Akira Ando
(Murata Manufacturing Co., Ltd.)
T18 Future developments on energy storage devices ~For improvement of capacitance and reliability~
Akira Kamimura
(Quantum Design Japan)
T19 Pitfalls in thermoelectric measurements
Hiroaki Matsui
(The Univ. of Tokyo)
T8 Nano-Materials Science for MIR-THz photonics
Hirotaka Asakura
(TOYO Corporation)
T19 Pitfalls in thermoelectric measurements
Hiroto Sekiguchi
(Toyohashi Univ. of Tech.)
T17 Science of Ensemble Phenomenon ~Emergence of Novel Functions and Applications by Harmonization of Complex-States~
Hyunsoo Yang
(National Univ. of Singapore)
T8 Nano-Materials Science for MIR-THz photonics
Ikki Morichika
(The Univ. of Tokyo)
T8 Nano-Materials Science for MIR-THz photonics
Ikufumi Katayama
(Yokohama Ntl Univ.)
T8 Nano-Materials Science for MIR-THz photonics
Isaku Kanno
(Kobe Univ.)
T18 Future developments on energy storage devices ~For improvement of capacitance and reliability~
Izumi Fukunaga
(OIST)
T17 Science of Ensemble Phenomenon ~Emergence of Novel Functions and Applications by Harmonization of Complex-States~
Junichiro Kono
(Rice Univ.)
T8 Nano-Materials Science for MIR-THz photonics
Junichiro Shiomi
(The Univ. of Toyko)
T19 Pitfalls in thermoelectric measurements
Ken-ichi Mimura
(AIST)
T18 Future developments on energy storage devices ~For improvement of capacitance and reliability~
Koichiro Morita
(TAIYO YUDEN CO.,LTD.)
T18 Future developments on energy storage devices ~For improvement of capacitance and reliability~
Koji Miyazaki
(Kyushu Inst. of Tech.)
T19 Pitfalls in thermoelectric measurements
Kyohei Takae
(The Univ. of Tokyo)
T18 Future developments on energy storage devices ~For improvement of capacitance and reliability~
Makito Haruta
(NAIST)
T17 Science of Ensemble Phenomenon ~Emergence of Novel Functions and Applications by Harmonization of Complex-States~
Masakazu Aono
(NIMS)
9.3 Nanoelectronics
Megumi Akoshima
(AIST)
T19 Pitfalls in thermoelectric measurements
Michio Suzuki
(The Univ. of Tokyo)
T17 Science of Ensemble Phenomenon ~Emergence of Novel Functions and Applications by Harmonization of Complex-States~
Norio KUMADA
(NTT-BRL)
T8 Nano-Materials Science for MIR-THz photonics
Ryoji Funahashi
(AIST)
T19 Pitfalls in thermoelectric measurements
Sarina Kinoshita
(Waseda Univ.)
9.1 Dielectrics, ferroelectrics
Satoaki Ikeuchi
(Advance Riko, Inc.)
T19 Pitfalls in thermoelectric measurements
Satoshi Wada
(Univ. of Yamanashi)
T18 Future developments on energy storage devices ~For improvement of capacitance and reliability~
Shiqiang Mike Li
(Agency for Sci., Tech. & Rsch, Singapore (A*STAR))
T8 Nano-Materials Science for MIR-THz photonics
Takahisa Shiraishi
(Tohoku Univ.)
T18 Future developments on energy storage devices ~For improvement of capacitance and reliability~
Takao Yasui
(Nagoya Univ.)
T17 Science of Ensemble Phenomenon ~Emergence of Novel Functions and Applications by Harmonization of Complex-States~
Takuro Hosomi
(Kyushu Univ.)
9.2 Nanoparticles, Nanowires and Nanosheets
Toshiharu Saiki
(Keio Univ.)
T8 Nano-Materials Science for MIR-THz photonics
Yasutaka Amagai
(AIST)
T19 Pitfalls in thermoelectric measurements
Yasutaka Imanaka
(NIMS)
T8 Nano-Materials Science for MIR-THz photonics
Yoriko Tominaga
(Hiroshima Univ.)
T17 Science of Ensemble Phenomenon ~Emergence of Novel Functions and Applications by Harmonization of Complex-States~
Yuki Kurauchi
(Kumamoto Univ.)
T17 Science of Ensemble Phenomenon ~Emergence of Novel Functions and Applications by Harmonization of Complex-States~
10.Spintronics and Magnetics
Hiroaki Yoda
(YODA-S, Inc.)
T20 Frontier of Nonvolatile Memory technologies - Spintronic, Phase-change, Resistive and Ferroelectric-
Hiroki Matsumoto
(The Univ. of Tokyo)
10.2 Fundamental and exploratory device technologies for spin
Junji Tominaga
(AIST)
T20 Frontier of Nonvolatile Memory technologies - Spintronic, Phase-change, Resistive and Ferroelectric-
Ken Takeuchi
(Chuo Univ.)
T20 Frontier of Nonvolatile Memory technologies - Spintronic, Phase-change, Resistive and Ferroelectric-
Masanori Hosomi
(Sony Semiconductor Solutions Corporation)
T20 Frontier of Nonvolatile Memory technologies - Spintronic, Phase-change, Resistive and Ferroelectric-
Satoshi Awamura
(Panasonic Semiconductor Solutions Co.,Ltd.)
T20 Frontier of Nonvolatile Memory technologies - Spintronic, Phase-change, Resistive and Ferroelectric-
Sumio Ikegawa
(Everspin Technologies, Inc.)
T20 Frontier of Nonvolatile Memory technologies - Spintronic, Phase-change, Resistive and Ferroelectric-
Tatsuya Yamamoto
(AIST)
10.2 Fundamental and exploratory device technologies for spin
Yohei Shiokawa
(TDK)
T20 Frontier of Nonvolatile Memory technologies - Spintronic, Phase-change, Resistive and Ferroelectric-
11.Superconductivity
Keiichi Tanabe
(SUSTERA)
T21 Sensing technology realized by superconductor -Recent applications of SQUID-
Keiji Enpuku
(Kyushu Univ.)
T21 Sensing technology realized by superconductor -Recent applications of SQUID-
Keiji Tsukada
(Okayama Univ.)
T21 Sensing technology realized by superconductor -Recent applications of SQUID-
Koichi Yokosawa
(Hokkaido Univ.)
T21 Sensing technology realized by superconductor -Recent applications of SQUID-
Saburo Tanaka
(Toyohashi Univ. of Tech.)
T21 Sensing technology realized by superconductor -Recent applications of SQUID-
Takanori Motoki
(Aoyama Gakuin Univ.)
11.1 Fundamental properties
Yoshiaki Adachi
(Kanazawa Inst. of Tech.)
T21 Sensing technology realized by superconductor -Recent applications of SQUID-
12.Organic Molecules and Bioelectronics
Akira Funahashi
(Keio Univ. )
T13 The fusion of multidimensional measurement technologies and data science toward the advancement of bioimaging and biosensing
Hiroto Satake
(The Univ. of Tokyo)
12.7 Biomedical Engineering and Biochips
Hiroyoshi Naito
(Osaka Prefectural Univ.)
T22 Organic Transistors: Exploring New Frontiers
Junichi Takeya
(The Univ. of Tokyo)
T22 Organic Transistors: Exploring New Frontiers
Kamarudin Akmal
(The Univ. of Electro-Communications)
12.5 Organic solar cells
Karl Leo
(Technische Universitat Dresden)
T22 Organic Transistors: Exploring New Frontiers
Kazuhiro Kudo
(Chiba Univ.)
T22 Organic Transistors: Exploring New Frontiers
Kazumichi Yokota
(AIST)
T13 The fusion of multidimensional measurement technologies and data science toward the advancement of bioimaging and biosensing
Kazuo Takimiya
(RIKEN)
T22 Organic Transistors: Exploring New Frontiers
Kensuke Kimura
(RIKEN)
12.4 Organic light-emitting devices and organic transistors
Kentarou Yoshimura
(Univ. of Yamanashi)
T13 The fusion of multidimensional measurement technologies and data science toward the advancement of bioimaging and biosensing
Koji Okajima
(Hokkaido Univ. )
T13 The fusion of multidimensional measurement technologies and data science toward the advancement of bioimaging and biosensing
Kosuke Ariizumi
(Osaka Univ.)
12.5 Organic solar cells
Mana Toma
(Tokyo Tech)
12.7 Biomedical Engineering and Biochips
Masahiro Ohara
(Chiba Univ.)
12.2 Characterization and Materials Physics
Mitsuaki Yamauchi
(Kwansei Gakuin Univ.)
12.1 Fabrications and Structure Controls
Ryohei Yasukuni
(NAIST)
T13 The fusion of multidimensional measurement technologies and data science toward the advancement of bioimaging and biosensing
Shizuo Tokito
(Yamagata Univ)
T22 Organic Transistors: Exploring New Frontiers
Tetsuyuki Kodera
(Kanazawa Univ. )
T13 The fusion of multidimensional measurement technologies and data science toward the advancement of bioimaging and biosensing
Tomoyuki Yokota
(The Univ. of Tokyo)
T22 Organic Transistors: Exploring New Frontiers
Yasuyuki Ozeki
(The Univ. of Tokyo)
T13 The fusion of multidimensional measurement technologies and data science toward the advancement of bioimaging and biosensing
Yuko Takeoka
(Sophia Univ.)
12.5 Organic solar cells
13.Semiconductors
Akira Dokoshi
(Hokkaido Research Organization)
T24 IoT devices and technologies in production fields
Daisuke Okamoto
(PETRA)
13.5 Semiconductor devices/ Interconnect/ Integration technologies
Hideaki Takashima
(Kyoto Univ.)
T25 Recent progress in Advanced Ion Microscopy: Application to nano materials and devices
Hiroshi Kitagawa
(Kyoto Univ.)
T23 Development of multinary compounds based on engineering for diverse stable phases -Future Materials Exploring Initiative ~Future of Environment and Energy Materials~ -
Hiroyuki Wado
(Denso Corporation)
T24 IoT devices and technologies in production fields
Kei Sumita
(The Univ. of Toyko)
13.5 Semiconductor devices/ Interconnect/ Integration technologies
Keiichi Yamamoto
(NTT docomo)
T24 IoT devices and technologies in production fields
Kimihiko Kato
(The Univ. of Toyko)
13.5 Semiconductor devices/ Interconnect/ Integration technologies
Kouichirou Yoshimi
(Fuji Electric Co., Ltd.)
T24 IoT devices and technologies in production fields
Masahiro Hori
(Shizuoka Univ.)
13.5 Semiconductor devices/ Interconnect/ Integration technologies
Masahiro Nomura
(The Univ. of Tokyo)
T25 Recent progress in Advanced Ion Microscopy: Application to nano materials and devices
Masaki Hasegawa
(Nagoya Univ.)
13.5 Semiconductor devices/ Interconnect/ Integration technologies
Masato Kotsugi
(Tokyo Univ. of Science)
T23 Development of multinary compounds based on engineering for diverse stable phases -Future Materials Exploring Initiative ~Future of Environment and Energy Materials~ -
Masayuki Hirafuji
(The Univ. of Tokyo)
T24 IoT devices and technologies in production fields
Olivier De Castro
(Luxembourg Inst. of Sci. & Tech.)
T25 Recent progress in Advanced Ion Microscopy: Application to nano materials and devices
Shane Cybart
(Univ. of California Riverside)
T25 Recent progress in Advanced Ion Microscopy: Application to nano materials and devices
Shuji Hayase
(The Univ. of Electro-Communications)
T23 Development of multinary compounds based on engineering for diverse stable phases -Future Materials Exploring Initiative ~Future of Environment and Energy Materials~ -
Takashi Takeda
(NIMS)
T23 Development of multinary compounds based on engineering for diverse stable phases -Future Materials Exploring Initiative ~Future of Environment and Energy Materials~ -
Taro Hitosugi
(Tokyo Tech)
T23 Development of multinary compounds based on engineering for diverse stable phases -Future Materials Exploring Initiative ~Future of Environment and Energy Materials~ -
Toshiyuki Koyama
(Nagoya Univ.)
T23 Development of multinary compounds based on engineering for diverse stable phases -Future Materials Exploring Initiative ~Future of Environment and Energy Materials~ -
Tsunehiro Takeuchi
(Toyota Technol. Inst.)
T23 Development of multinary compounds based on engineering for diverse stable phases -Future Materials Exploring Initiative ~Future of Environment and Energy Materials~ -
Vignesh Viswanathan
(Carl Zeiss)
T25 Recent progress in Advanced Ion Microscopy: Application to nano materials and devices
Yasuki Okuno
(JAEA)
13.9 Compound solar cells
Yoshiharu Nakajima
(Japan Display Inc.)
13.4 Si processing /Si based thin film / MEMS / Equipment technology
Yoshihiro Kawahara
(The Univ. of Tokyo)
T24 IoT devices and technologies in production fields
Yuichi Oshima
(NIMS)
T23 Development of multinary compounds based on engineering for diverse stable phases -Future Materials Exploring Initiative ~Future of Environment and Energy Materials~ -
Yukinori Ono
(Shizuoka Univ.)
13.5 Semiconductor devices/ Interconnect/ Integration technologies
Yuuki Kitagawa
(Kyoto Univ.)
13.8 Optical properties and light-emitting devices
15.Crystal Engineering
Aiko Narasaki
(AIST)
T27 Nano-cybernetics of interface bonded at room or low temperature and ultra thin films at heterojunction interface
Hiraku Ogino
(AIST)
15.1 Bulk crystal growth
Katsuaki Tanabe
(Kyoto Univ.)
T27 Nano-cybernetics of interface bonded at room or low temperature and ultra thin films at heterojunction interface
Kazuhiro Ogawa
(Tohoku Univ.)
T27 Nano-cybernetics of interface bonded at room or low temperature and ultra thin films at heterojunction interface
Kenji Shiraishi
(Nagoya Univ.)
T26 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors -Frontiers in defect physics: Merging characterization and theory-
Koshiro Kubo
(Miyazaki Univ.)
15.3 III-V-group epitaxial crystals, Fundamentals of epitaxy
Kumiko Konishi
(Hitachi, Ltd.)
15.6 Group IV Compound Semiconductors (SiC)
Masashi Yoshimura
(Osaka Univ.)
15.1 Bulk crystal growth
Masayuki Imanishi
(Osaka Univ.)
15.4 III-V-group nitride crystals
Minoru Osada
(Nagoya Univ.)
T27 Nano-cybernetics of interface bonded at room or low temperature and ultra thin films at heterojunction interface
Naoya Miyashita
(The Univ. of Tokyo)
T27 Nano-cybernetics of interface bonded at room or low temperature and ultra thin films at heterojunction interface
Naoya Shibata
(The Univ. of Tokyo)
T26 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors -Frontiers in defect physics: Merging characterization and theory-
Satoshi Watanabe
(The Univ. of Tokyo)
T26 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors -Frontiers in defect physics: Merging characterization and theory-
Tadakatsu Ohkubo
(NIMS)
T26 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors -Frontiers in defect physics: Merging characterization and theory-
Tadatomo Suga
(Meisei Univ.)
T27 Nano-cybernetics of interface bonded at room or low temperature and ultra thin films at heterojunction interface
Takashi Nakano
(Nagoya Univ.)
15.4 III-V-group nitride crystals
Takuo Sasaki
(QST)
T27 Nano-cybernetics of interface bonded at room or low temperature and ultra thin films at heterojunction interface
Yasuo Koide
(NIMS)
T27 Nano-cybernetics of interface bonded at room or low temperature and ultra thin films at heterojunction interface
Yoshiaki Nakamura
(Osaka Univ.)
T26 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors -Frontiers in defect physics: Merging characterization and theory-
Yoshihiro Ishitani
(Chiba Univ.)
T26 Materials Science and Advanced Electronics Created by Singularity of Nitride Semiconductors -Frontiers in defect physics: Merging characterization and theory-
Yoshihiro Kuroiwa
(Hiroshima Univ.)
T27 Nano-cybernetics of interface bonded at room or low temperature and ultra thin films at heterojunction interface
Yoshio Honda
(Nagoya Univ.)
T27 Nano-cybernetics of interface bonded at room or low temperature and ultra thin films at heterojunction interface
16.Amorphous and Microcrystalline Materials
Akitoshi Hayashi
(Osaka Prefectural Univ.)
T29 Current topics and future prospects of amorphous materials and their device applications
Atsushi Masuda
(AIST)
T30 Toward construction of academic theory on "module science" with giving cases of solar cells
Hideo Yamauchi
(Nippon Electric Glass Co.,Ltd.)
T29 Current topics and future prospects of amorphous materials and their device applications
Hirokuni Hachiuma
(KELK Ltd.)
T28 Advances of Energy Harvesting Technologies for Society 5.0
Keisuke Ohdaira
(JAIST)
T30 Toward construction of academic theory on "module science" with giving cases of solar cells
Koichiro Niira
(Kyocera Corporation)
T30 Toward construction of academic theory on "module science" with giving cases of solar cells
Norikatsu Takaura
(Hitachi, Ltd.)
T28 Advances of Energy Harvesting Technologies for Society 5.0
Sachiko Jonai
(Niigata Univ.)
T30 Toward construction of academic theory on "module science" with giving cases of solar cells
Shunsuke Mori
(Tohoku Univ.)
16.1 Fundamental properties, evaluation, process and devices in disordered materials
Taeko Semba
(Namics Corporation)
T30 Toward construction of academic theory on "module science" with giving cases of solar cells
Takao Mori
(NIMS)
T28 Advances of Energy Harvesting Technologies for Society 5.0
Takashi Nakajima
(Tokyo Univ. of Science)
T28 Advances of Energy Harvesting Technologies for Society 5.0
Takeaki Yajima
(The Univ. of Tokyo)
T28 Advances of Energy Harvesting Technologies for Society 5.0
Tamihiro Gotoh
(Gunma Univ.)
T29 Current topics and future prospects of amorphous materials and their device applications
Toshihiro Nakaoka
(Sophia Univ.)
T29 Current topics and future prospects of amorphous materials and their device applications
Yoshiro Tajitsu
(Kansai Univ.)
T28 Advances of Energy Harvesting Technologies for Society 5.0
Yuji Sutou
(Tohoku Univ.)
T29 Current topics and future prospects of amorphous materials and their device applications
Yuta Saito
(AIST)
T29 Current topics and future prospects of amorphous materials and their device applications
Yutaka Ohno
(Tohoku Univ.)
T30 Toward construction of academic theory on "module science" with giving cases of solar cells
17.Nanocarbon Technology
Hideaki Nakajima
(AIST)
17.2 Graphene
Hideki Matsuoka
(The Univ. of Tokyo)
17.3 Layered materials
Hideyuki Maki
(Keio Univ.)
T31 Science and applications of integrated two-dimensional materials
Kazuhiko Kano
(Denso Corporation)
T31 Science and applications of integrated two-dimensional materials
Kazunari Matsuda
(Kyoto Univ.)
T31 Science and applications of integrated two-dimensional materials
Naoki Higashitarumizu
(The Univ. of Tokyo)
17.3 Layered materials
Naruo Sasaki
(The Univ. of Electro-Communications)
T31 Science and applications of integrated two-dimensional materials
Ryosuke Senga
(AIST)
T31 Science and applications of integrated two-dimensional materials
Takao Sasagawa
(Tokyo Tech)
T31 Science and applications of integrated two-dimensional materials
Tomoki Machida
(The Univ. of Tokyo)
T31 Science and applications of integrated two-dimensional materials
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"
Yuki Hashima
(NAIST)
21.1 Joint Session K "Wide bandgap oxide semiconductor materials and devices"
Joint Session M "Phonon Engineering"
Akira Kamimura
(Quantum Design Japan)
T19 Pitfalls in thermoelectric measurements
Chinami Abe
(Aoyama Gakuin Univ.)
22.1 Joint Session M "Phonon Engineering"
Hirotaka Asakura
(TOYO Corporation)
T19 Pitfalls in thermoelectric measurements
Junichiro Shiomi
(The Univ. of Toyko)
T19 Pitfalls in thermoelectric measurements
Koji Miyazaki
(Kyushu Inst. of Tech.)
T19 Pitfalls in thermoelectric measurements
Megumi Akoshima
(AIST)
T19 Pitfalls in thermoelectric measurements
Ryoji Funahashi
(AIST)
T19 Pitfalls in thermoelectric measurements
Satoaki Ikeuchi
(Advance Riko, Inc.)
T19 Pitfalls in thermoelectric measurements
Yasutaka Amagai
(AIST)
T19 Pitfalls in thermoelectric measurements