Invited Speakers

[+] All Open

1.Interdisciplinary Physics and Related Areas of Science and Technology

Kenichi Amagai (Kawagoe Technical High School) S1 Physics education on environment and energy
Kentaro Hakiri (Univ. of Yamanashi) 1.6 Ultrasonics
Koichi Takaki (Iwate Univ.) S1 Physics education on environment and energy
Nobu Kuzuu (Univ. of Fukui) S1 Physics education on environment and energy
Tessui Nakagawa (Univ. of the Ryukyus) S1 Physics education on environment and energy
Tomonari Gima (Miyako High School) S1 Physics education on environment and energy

2.Ionizing Radiation

Hajime Inaba (AIST) S2 Recent topics in measurement standards
Kenichi Fujii (AIST) S2 Recent topics in measurement standards
Kuniaki Amemiya (AIST) S2 Recent topics in measurement standards
Tadahiro Kurosawa (AIST) S2 Recent topics in measurement standards
Tohru Nakano (AIST) S2 Recent topics in measurement standards

3.Optics and Photonics

Akifumi Asahara (The Univ. of Electro-Communications) 3.6 Ultrashort-pulse and high-intensity lasers
Akiko Nishiyama (The Univ. of Electro-Communications) 3.8 Optical measurement, instrumentation, and sensor
Ami Shinjo (Gakushuin Univ.) 3.10 Optical quantum physics and technologies
Atsushi Noguchi (The Univ. of Tokyo) S6 Quantum sensing toward ultimate sensitivity
Emi Yukawa (RIKEN) S6 Quantum sensing toward ultimate sensitivity
Frederic Boeuf (STMicroelectronics) 3.16 Optics and Photonics English Session
Hajime Ishihara (Osaka Univ.) S5 Nano-Material optical-manipulations open up novel phenomena, functions and technologies
Hideaki Murayama (The Univ. of Tokyo) S3 Various Applications of Fiber-optic Sensing Technology
Hideki Fujiwara (Hokkaido Univ.) S5 Nano-Material optical-manipulations open up novel phenomena, functions and technologies
Hiraku Toida (NTT-BRL) S6 Quantum sensing toward ultimate sensitivity
Imada Hiroshi (RIKEN) S5 Nano-Material optical-manipulations open up novel phenomena, functions and technologies
Katsumasa Yoshioka (Yokohama Ntl. Univ.) 3.6 Ultrashort-pulse and high-intensity lasers
Kazuhiko Hirakawa (The Univ. of Tokyo) S6 Quantum sensing toward ultimate sensitivity
Kazuhiro Watanabe (Soka Univ.) S3 Various Applications of Fiber-optic Sensing Technology
Kazutaka Kanno (Saitama Univ.) 3.10 Optical quantum physics and technologies
Keijiro Suzuki (AIST) 3.15 Silicon photonics
Kentaro Taki (Kanazawa Univ.) S4 Progress of characterization and monitoring techniques that reveal fundamental of light process
Kyoko Namura (Kyoto Univ.) S5 Nano-Material optical-manipulations open up novel phenomena, functions and technologies
Masahiro Suemitsu (Osaka Gas Co., Ltd.) 3.11 Photonic structures and phenomena
Michio Imai (Kajima Corp.) S3 Various Applications of Fiber-optic Sensing Technology
Mutsuko Hatano (Tokyo Inst. of Tech.) S6 Quantum sensing toward ultimate sensitivity
Rie Yamagishi (Fukuoka Inst. of Tech.) S4 Progress of characterization and monitoring techniques that reveal fundamental of light process
Shota Kimura (The Univ. of Tokyo) 3.5 Laser system and materials
Shuntaro Tani (The Univ. of Tokyo) S4 Progress of characterization and monitoring techniques that reveal fundamental of light process
Tadahito Mizutani (JAXA) S3 Various Applications of Fiber-optic Sensing Technology
Takashi Yatsui (The Univ. of Tokyo) 3.12 Nanoscale optical science and near-field optics
Takashige Omatsu (Chiba Univ.) S5 Nano-Material optical-manipulations open up novel phenomena, functions and technologies
Teruki Sugiyama (Ntl. Chiao Tung Univ.) S5 Nano-Material optical-manipulations open up novel phenomena, functions and technologies
Tomokazu Oda (NTT) S3 Various Applications of Fiber-optic Sensing Technology
Tomoyuki Uehara (Ntl. Defense Academy) S3 Various Applications of Fiber-optic Sensing Technology
Yasuyuki Tsuboi (Osaka City Univ.) S5 Nano-Material optical-manipulations open up novel phenomena, functions and technologies
Yoshihisa Ikisawa (The Univ. of Electro-Communications) 3.8 Optical measurement, instrumentation, and sensor
Yoshiki Ichioka (Prof. Emeritus, Osaka Univ.) 3.3 Information photonics and image engineering
Yoshio Hayasaki (Utsunomiya Univ.) S4 Progress of characterization and monitoring techniques that reveal fundamental of light process
Yoshiro Hirayama (Tohoku Univ.) S6 Quantum sensing toward ultimate sensitivity
Yuichi Kozawa (Tohoku Univ.) S5 Nano-Material optical-manipulations open up novel phenomena, functions and technologies
Yuimaru Kubo (OIST) S6 Quantum sensing toward ultimate sensitivity
Yuji Sato (JAEA) S4 Progress of characterization and monitoring techniques that reveal fundamental of light process
Yujin Zheng (Hamamatsu Photonics K.K.) 3.5 Laser system and materials
Yuma Okazaki (AIST) S6 Quantum sensing toward ultimate sensitivity
Yuriko Maegami (AIST) 3.15 Silicon photonics
Yutaka Suzuki (Univ. of Yamanashi) S3 Various Applications of Fiber-optic Sensing Technology

6.Thin Films and Surfaces

Akari Takayama (Waseda Univ.) S7 Surface Science Innovation by Positron Diffraction and High Performance Data Driven Science
Atsushi Ito (NIFS) S10 Carbon related materials and plasma processing; state of the art and subjects
Hidenori Hiramatsu (Tokyo Inst. of Tech.) S9 Frontier in oxide materials with predictive materials design
Hideo Hosono (Tokyo Inst. of Tech.) 6.4 Thin films and New materials
Hirofumi Yamada (Kyoto Univ.) S8 Nanoscale 2D/3D analyses for new device and materials development II
Iwao Matsuda (The Univ. of Tokyo) S7 Surface Science Innovation by Positron Diffraction and High Performance Data Driven Science
Izumi Mochizuki (KEK) S7 Surface Science Innovation by Positron Diffraction and High Performance Data Driven Science
Junichiro Shiomi (The Univ. of Tokyo) S9 Frontier in oxide materials with predictive materials design
Kazuhiko Omote (Rigaku Corp.) S8 Nanoscale 2D/3D analyses for new device and materials development II
Kazuo Tsutsui (Tokyo Inst. of Tech.) S8 Nanoscale 2D/3D analyses for new device and materials development II
Kei Oya (Seikei Univ.) 6.4 Thin films and New materials
Kei Watanabe (Toshiba Memory Corp.) S10 Carbon related materials and plasma processing; state of the art and subjects
Ken Wada (QST) S7 Surface Science Innovation by Positron Diffraction and High Performance Data Driven Science
Koji Usuda (Toshiba Memory Corporation) S8 Nanoscale 2D/3D analyses for new device and materials development II
Masaaki Aramaki (Osaka Prefecture Univ.) 6.1 Ferroelectric thin films
Masahiro Goto (NIMS) S9 Frontier in oxide materials with predictive materials design
Masaki Hasegawa (Hitachi High-Technologies Corp.) S8 Nanoscale 2D/3D analyses for new device and materials development II
Masanori Hiratsuka (Nanotec Corp.) S10 Carbon related materials and plasma processing; state of the art and subjects
Mutsuko Hatano (Tokyo Inst. of Tech.) S10 Carbon related materials and plasma processing; state of the art and subjects
Shin'ichi Higai (Murata Manufacturing Co., Ltd.) S9 Frontier in oxide materials with predictive materials design
Shinya Ohmagari (AIST) 6.2 Carbon-based thin films
Takashi Koretsune (Tohoku Univ.) S9 Frontier in oxide materials with predictive materials design
Takeo Hoshi (Tottori Univ.) S7 Surface Science Innovation by Positron Diffraction and High Performance Data Driven Science
Tamio Oguchi (Osaka Univ.) S9 Frontier in oxide materials with predictive materials design
Toshiaki Kato (Tohoku Univ.) S10 Carbon related materials and plasma processing; state of the art and subjects
Toshihiro Tsuji (Tohoku Univ.) S8 Nanoscale 2D/3D analyses for new device and materials development II
Toshio Hyodo (KEK) S7 Surface Science Innovation by Positron Diffraction and High Performance Data Driven Science
Tsubasa Matsumoto (Kanazawa Univ.) 6.2 Carbon-based thin films
Tsukasa Katayama (The Univ. of Tokyo) 6.3 Oxide electronics
Yoshinori Nakanishi-Ohno (The Univ. of Tokyo) S7 Surface Science Innovation by Positron Diffraction and High Performance Data Driven Science
Yoshiyuki Yamashita (NIMS) S8 Nanoscale 2D/3D analyses for new device and materials development II
Yu Kumagai (Tokyo Inst. of Tech.) S9 Frontier in oxide materials with predictive materials design
Yuki Fukaya (JAEA) S7 Surface Science Innovation by Positron Diffraction and High Performance Data Driven Science

8.Plasma Electronics

9.Applied Materials Science

Mikio Koyano (JAIST) 9.4 Thermoelectric conversion
Tomoyasu Yokoyama (Panasonic Corp.) 9.5 New functional materials and new phenomena
Yohei Uemura (The Univ. of Tokyo) 9.1 Dielectrics, ferroelectrics

10.Spintronics and Magnetics

Daichi Chiba (The Univ. of Tokyo) S11 Spin Devices for the IoT/IoH Era
Hana Hirose (The Univ. of Tokyo) 10.4 Semiconductor spintronics, superconductor, multiferroics
Masashi Sahashi (Tohoku Univ.) S11 Spin Devices for the IoT/IoH Era
Seiji Kumagai (SpinSensingFactory) S11 Spin Devices for the IoT/IoH Era
Thao A Nguyen (Western Digital Corp.) S11 Spin Devices for the IoT/IoH Era
Yoshihiko Fuji (Toshiba Corp.) S11 Spin Devices for the IoT/IoH Era
Yuki Hibino (The Univ. of Tokyo) 10.2 Fundamental and exploratory device technologies for spin
Yuya Shoji (Tokyo Inst. of Tech.) S11 Spin Devices for the IoT/IoH Era

11.Superconductivity

12.Organic Molecules and Bioelectronics

Hirofumi Yamada (Kyoto Univ.) S14 Interplay and integration of experiments and calculations in nanobiotechnology: lipid membrane and membrane proteins
Hirokazu Tahara (Kyoto Univ.) 12.5 Organic solar cells
Hirokazu Takahashi (The Univ. of Tokyo) S13 Science of the Material Intelligence: Bringing out the Intrinsic Learning and Optimization Capabilities of Materials
Huie Zhu (Tohoku Univ.) 12.1 Fabrications and Structure Controls
Kazutaka Tomita (Kyoto Univ.) 12.1 Fabrications and Structure Controls
Kenji Yasuoka (Keio Univ.) S14 Interplay and integration of experiments and calculations in nanobiotechnology: lipid membrane and membrane proteins
Koji Okuwaki (Rikkyo Univ.) 12.6 Nanobiotechnology
Koji Sumitoro (Univ. of Hyogo) S14 Interplay and integration of experiments and calculations in nanobiotechnology: lipid membrane and membrane proteins
Masaki Horie (Ntl. Tsing Hua Univ.) 12.2 Characterization and Materials Physics
Masashi Aono (Keio Univ.) S13 Science of the Material Intelligence: Bringing out the Intrinsic Learning and Optimization Capabilities of Materials
Megumi Akai-Kasaya (Osaka Univ.) S13 Science of the Material Intelligence: Bringing out the Intrinsic Learning and Optimization Capabilities of Materials
Michio Murata (Osaka Univ.) S14 Interplay and integration of experiments and calculations in nanobiotechnology: lipid membrane and membrane proteins
Naoki Wakamiya (Osaka Univ.) S13 Science of the Material Intelligence: Bringing out the Intrinsic Learning and Optimization Capabilities of Materials
Satria Zulkarnaen Bisri (RIKEN) S12 Colloidal Quantum Dots: Fundamentals and Applications
Seiya Kasai (Hokkaido Univ.) S13 Science of the Material Intelligence: Bringing out the Intrinsic Learning and Optimization Capabilities of Materials
Shen Qing (The Univ. of Electro-Communications) S12 Colloidal Quantum Dots: Fundamentals and Applications
Taishi Takenobu (Nagoya Univ.) 12.3 Functional Materials and Novel Devices
Takaya Kubo (The Univ. of Tokyo) S12 Colloidal Quantum Dots: Fundamentals and Applications
Takayuki Chiba (Yamagata Univ.) S12 Colloidal Quantum Dots: Fundamentals and Applications
Taro Toyoda (The Univ. of Electro-Communications) S12 Colloidal Quantum Dots: Fundamentals and Applications
Tarou Uematsu (Osaka Univ.) S12 Colloidal Quantum Dots: Fundamentals and Applications
Tegi Kim (Osaka City Univ.) S12 Colloidal Quantum Dots: Fundamentals and Applications
Tetsuya Asai (Hokkaido Univ.) S13 Science of the Material Intelligence: Bringing out the Intrinsic Learning and Optimization Capabilities of Materials
Tsutomu Miyasaka (Toin Univ. of Yokohama) 12.5 Organic solar cells
Tsuyoshi Hasegawa (Waseda Univ.) S13 Science of the Material Intelligence: Bringing out the Intrinsic Learning and Optimization Capabilities of Materials
Wataru Shinoda (Nagoya Univ.) S14 Interplay and integration of experiments and calculations in nanobiotechnology: lipid membrane and membrane proteins
Yu Yamashita (The Univ. of Tokyo) 12.2 Characterization and Materials Physics
Yuji Mochizuki (Rikkyo Univ.) S14 Interplay and integration of experiments and calculations in nanobiotechnology: lipid membrane and membrane proteins

13.Semiconductors

Akihiro Okabe (Novars Inc.) S16 Integrated Systems for Developing IoT
Chikara Sato (AIST) S17 Advanced ion microscopy for future nano scale materials and devices
Daehwan Ahn (The Univ. of Tokyo) 13.5 Semiconductor devices/ Interconnect/ Integration technologies
Daisuke Kobayashi (JAXA) 13.5 Semiconductor devices/ Interconnect/ Integration technologies
Hideaki Takashima (Kyoto Univ.) S17 Advanced ion microscopy for future nano scale materials and devices
Hidenori Hiramatsu (Tokyo Inst. of Tech.) S15 New trend of multinary compound research ~ control of physical properties, new application~
Hiroshi Mizuta (JAIST) S17 Advanced ion microscopy for future nano scale materials and devices
Hiroyuki Nakamoto (Fujitsu Laboratories Ltd.) S16 Integrated Systems for Developing IoT
John Notte (Carl Zeiss) S17 Advanced ion microscopy for future nano scale materials and devices
Kaoru Toko (Tsukuba Univ.) 13.5 Semiconductor devices/ Interconnect/ Integration technologies
Kazuo Tsutsui (Tokyo Inst. of Tech.) 13.5 Semiconductor devices/ Interconnect/ Integration technologies
Kazuyoshi Itagaki (EnOcean) S16 Integrated Systems for Developing IoT
Marina Yamaguchi (Toshiba Memory Corp.) 13.3 Insulator technology
Masatoshi Takeda (Nagaoka Univ. of Tech.) S16 Integrated Systems for Developing IoT
Robert Sinclair (Stanford Univ.) S17 Advanced ion microscopy for future nano scale materials and devices
Ryuichi Ohta (NTT-BRL) 13.6 Nanostructures, quantum phenomena, and nano quantum devices
Shane Cybart (Univ. of California, Riverside) S17 Advanced ion microscopy for future nano scale materials and devices
Shinya Kasai (NIMS) S15 New trend of multinary compound research ~ control of physical properties, new application~
Shogo Ishizuka (AIST) S15 New trend of multinary compound research ~ control of physical properties, new application~
Simon Deleonibus (LETI) S17 Advanced ion microscopy for future nano scale materials and devices
Taizo Masuda (Toyota Motor Corp.) S15 New trend of multinary compound research ~ control of physical properties, new application~
Takao Mori (NIMS) S15 New trend of multinary compound research ~ control of physical properties, new application~
Takuya Iwasaki (NIMS) S17 Advanced ion microscopy for future nano scale materials and devices
Tomoki Hirano (Osaka Univ.) 13.1 Fundamental properties, surface and interface, and simulations of Si related materials
Toshiro Hiramoto (The Univ. of Tokyo) S16 Integrated Systems for Developing IoT
Tsukasa Fujimori (Hitachi, Ltd.) S16 Integrated Systems for Developing IoT
Tsutomu Minegishi (The Univ. of Tokyo) S15 New trend of multinary compound research ~ control of physical properties, new application~
Yasushi Shoji (AIST) 13.9 Compound solar cells

15.Crystal Engineering

Akio Sasaki (Prof. Emeritus, Kyoto Univ.) 15.3 III-V-group epitaxial crystals, Fundamentals of epitaxy
Akira Sakai (Osaka Univ.) S20 Symposium on Crystal Science with Synchrotron Radiation
Digh Hisamoto (Hitachi Ltd.) S19 Progress in ion implantation for semiconductor devices -Si, GaAs and WBG materials-
Hideki Hirayama (RIKEN) 15.4 III-V-group nitride crystals
Iwao Kawayama (Osaka Univ.) S18 Science created by singularity in nitride-semiconductors; Development of nano-characterization and control of material properties
Katsumi Nakamura (Mitsubishi Electric Corp.) S19 Progress in ion implantation for semiconductor devices -Si, GaAs and WBG materials-
Kazuaki Ebata (NTT-BRL) S18 Science created by singularity in nitride-semiconductors; Development of nano-characterization and control of material properties
Keishi Shiomi (Osaka Univ.) 15.4 III-V-group nitride crystals
Keita Kataoka (Toyota Central R&D Labs., Inc.) S20 Symposium on Crystal Science with Synchrotron Radiation
Kenjiro Uesugi (Mie Univ.) 15.4 III-V-group nitride crystals
Kiyoshi Shimamura (NIMS) 15.1 Bulk crystal growth
Koichi Kakimoto (Kyushu Univ.) 15.1 Bulk crystal growth
Masaaki Kuzuhara (Univ. of Fukui) S19 Progress in ion implantation for semiconductor devices -Si, GaAs and WBG materials-
Masaharu Oshima (The Univ. of Tokyo) S20 Symposium on Crystal Science with Synchrotron Radiation
Masamitsu Takahashi (QST) S20 Symposium on Crystal Science with Synchrotron Radiation
Masataka Higashiwaki (NICT) S19 Progress in ion implantation for semiconductor devices -Si, GaAs and WBG materials-
Masatomo Sumiya (NIMS) S20 Symposium on Crystal Science with Synchrotron Radiation
Motoaki Iwaya (Meijo Univ.) S18 Science created by singularity in nitride-semiconductors; Development of nano-characterization and control of material properties
Osamu Eryu (Nagoya Inst. of Tech.) S19 Progress in ion implantation for semiconductor devices -Si, GaAs and WBG materials-
Ryota Ishii (Kyoto Univ.) S18 Science created by singularity in nitride-semiconductors; Development of nano-characterization and control of material properties
Shigefusa Chichibu (Tohoku Univ.) S18 Science created by singularity in nitride-semiconductors; Development of nano-characterization and control of material properties
Takao Miyajima (Meijo Univ.) S20 Symposium on Crystal Science with Synchrotron Radiation
Takashi Tanii (Waseda Univ.) S19 Progress in ion implantation for semiconductor devices -Si, GaAs and WBG materials-
Tetsu Kachi (Nagoya Univ.) S19 Progress in ion implantation for semiconductor devices -Si, GaAs and WBG materials-
Tomohiro Yamaguchi (Kogakuin Univ.) S20 Symposium on Crystal Science with Synchrotron Radiation
Tomoyuki Tanikawa (Tohoku Univ.) S18 Science created by singularity in nitride-semiconductors; Development of nano-characterization and control of material properties
Toru Ujihara (Nagoya Univ.) S18 Science created by singularity in nitride-semiconductors; Development of nano-characterization and control of material properties
Tsunenobu Kimoto (Kyoto Univ.) S19 Progress in ion implantation for semiconductor devices -Si, GaAs and WBG materials-
Yoichi Yamada (Yamaguchi Univ.) S18 Science created by singularity in nitride-semiconductors; Development of nano-characterization and control of material properties
Yusuke Hayashi (Mie Univ.) 15.4 III-V-group nitride crystals

16.Amorphous and Microcrystalline Materials

17.Nanocarbon Technology

Taichi Inoue (Osaka Prefecture Univ.) 17.3 Layered materials
Yusuke Fukazawa (Keio Univ.) 17.2 Graphene

21. Joint Session K

Hideo Hosono (Tokyo Inst. of Tech.) S22 Pioneering of Frontier technology for metal oxide novel device I -from thin film fabrication to device creation -
Mamoru Furuta (Kochi Univ. of Tech.) S22 Pioneering of Frontier technology for metal oxide novel device I -from thin film fabrication to device creation -
Yukiharu URAOKA (NAIST) S22 Pioneering of Frontier technology for metal oxide novel device I -from thin film fabrication to device creation -
Yusaku Magari (Kochi Univ. of Tech.) 21.1 Joint Session K "Wide bandgap oxide semiconductor materials and devices"

22. Joint Session M

Toru Ujihara (Nagoya Univ.) 22.1 Joint Session M "Wide bandgap oxide semiconductor materials and devices"

31. Forcused Session "AI Electronics"

SP.Special Symposium

Akihisa Sekiguchi (Tokyo Electron Ltd.) SP7 就活生必見!知ってますか?エレクトロニクス産業が拡大し続けていることを!
Akiko Hirata (Sony Semiconductor Solutions Corp.) SP7 就活生必見!知ってますか?エレクトロニクス産業が拡大し続けていることを!
Akira Nishiyama (Toshiba Memory Corp.) SP7 就活生必見!知ってますか?エレクトロニクス産業が拡大し続けていることを!
Atsushi Watanabe (Education Journalist) SP1 Roles and Collaboration between National-Public-Private Universities across Nations
Hidemi Ishiuchi (EIDEC) SP3 International Roadmaps on Systems and Devices 2019, Searching xenogeneic technology innovations
Hideo Ohno (Tohoku Univ.) SP2 研究者を幸せにする環境とは―日本の研究力を最大化するために―
Hirofumi Hazama (Toyota Central R&D Labs., Inc.) SP5 Present and future on imfomatics technologies
Hiroki Ishikuro (Keio Univ.) SP3 International Roadmaps on Systems and Devices 2019, Searching xenogeneic technology innovations
Hiroshi Amano (Nagoya Univ.) SP2 研究者を幸せにする環境とは―日本の研究力を最大化するために―
Hiroyuki Akinaga (AIST) SP3 International Roadmaps on Systems and Devices 2019, Searching xenogeneic technology innovations
Hiroyuki Sakaki (Toyota Technological Inst.) SP1 Roles and Collaboration between National-Public-Private Universities across Nations
Hitoshi Murayama (Kavli IPMU) SP2 研究者を幸せにする環境とは―日本の研究力を最大化するために―
Junya Nakai (HORIBA STEC, Co., Ltd.) SP7 就活生必見!知ってますか?エレクトロニクス産業が拡大し続けていることを!
Kae Nemoto (NII) SP6 ここが変だよ,日本の研究環境
Kan Akatsu (Shibaura Inst. of Tech.) SP4 Accelerating Trend to Electrification of Vehicles - Concerned Development of Battery, Power Semiconductor, Motor and System -
Kaustav Banerjee (UCSB) SP3 International Roadmaps on Systems and Devices 2019, Searching xenogeneic technology innovations
Kazumi Kato (AIST) SP6 ここが変だよ,日本の研究環境
Kazunori Takada (NIMS) SP4 Accelerating Trend to Electrification of Vehicles - Concerned Development of Battery, Power Semiconductor, Motor and System -
Kazushi Akimoto (Teradyne Inc.) SP7 就活生必見!知ってますか?エレクトロニクス産業が拡大し続けていることを!
Keisuke Isogai (MEXT) SP2 研究者を幸せにする環境とは―日本の研究力を最大化するために―
Koichi Sejima (Sony Semiconductor Solutions Corp.) SP3 International Roadmaps on Systems and Devices 2019, Searching xenogeneic technology innovations
Koichiro Saga (Sony Semiconductor Solutions Corp.) SP3 International Roadmaps on Systems and Devices 2019, Searching xenogeneic technology innovations
Marina Yamaguchi (Toshiba Memory Corp.) SP7 就活生必見!知ってますか?エレクトロニクス産業が拡大し続けていることを!
Masaaki Takada (Toshiba Corp.) SP5 Present and future on imfomatics technologies
Masahide Takahashi (Nagoya Univ.) SP6 ここが変だよ,日本の研究環境
Masahiro Fukuta (Hitachi High-Technologies Corp.) SP7 就活生必見!知ってますか?エレクトロニクス産業が拡大し続けていることを!
Masakazu Tanaka (Denso Corp.) SP4 Accelerating Trend to Electrification of Vehicles - Concerned Development of Battery, Power Semiconductor, Motor and System -
Norihiko Takahashi (Fujitsu Laboratories Ltd.) SP5 Present and future on imfomatics technologies
Ryohto Sawada (NEC Corp.) SP5 Present and future on imfomatics technologies
Sirkku Sakane (Tokyo Univ. of Agri. & Tech.) SP6 ここが変だよ,日本の研究環境
Supika Mashiro (Tokyo Electron Ltd.) SP3 International Roadmaps on Systems and Devices 2019, Searching xenogeneic technology innovations
Takeshi Iwashita (Hokkaido Univ.) SP3 International Roadmaps on Systems and Devices 2019, Searching xenogeneic technology innovations
Takuya Kadoguchi (Toyota Motor Corp.) SP4 Accelerating Trend to Electrification of Vehicles - Concerned Development of Battery, Power Semiconductor, Motor and System -
Tomohide Terashima (Mitsubishi Electric Corp.) SP4 Accelerating Trend to Electrification of Vehicles - Concerned Development of Battery, Power Semiconductor, Motor and System -
Tomohiro Ueno (Advandest Corp.) SP7 就活生必見!知ってますか?エレクトロニクス産業が拡大し続けていることを!
Yasumitsu Orii (Nagase & Co., Ltd. ) SP3 International Roadmaps on Systems and Devices 2019, Searching xenogeneic technology innovations
Yoichi Shiraishi (Gunma Univ.) SP4 Accelerating Trend to Electrification of Vehicles - Concerned Development of Battery, Power Semiconductor, Motor and System -
Yoshihiro Hayashi (Renesas Electronics Corp.) SP3 International Roadmaps on Systems and Devices 2019, Searching xenogeneic technology innovations
Yoshikazu Horii (Nissan Motor Corp.) SP4 Accelerating Trend to Electrification of Vehicles - Concerned Development of Battery, Power Semiconductor, Motor and System -
Yuki K. Wakabayashi (NTT-BRL) SP5 Present and future on imfomatics technologies
Yusuke Ino (Fujifilm Corp.) SP5 Present and future on imfomatics technologies
Yuzo Fukuzaki (Sony Semiconductor Solutions Corp.) SP3 International Roadmaps on Systems and Devices 2019, Searching xenogeneic technology innovations