Rchr
J-GLOBAL ID:200901027334870166   Update date: Nov. 08, 2024

Souma Satofumi

ソウマ サトフミ | Souma Satofumi
Affiliation and department:
Job title: Associate Professor
Homepage URL  (1): http://www2.kobe-u.ac.jp/~ssouma/
Research field  (1): Electronic devices and equipment
Research keywords  (7): Semiconductor device modeling and simulation ,  Atomic layer material electronics ,  Quantum transport theory ,  Development of atomistic device simulator ,  Non equilibrium Green's function method ,  Neuromorphic computing device ,  Quantum computing device and algorithm
Research theme for competitive and other funds  (12):
  • 2022 - 2025 Development of nanoscale device simulation method based on quantum computational algorithm
  • 2019 - 2021 Machine learning assisted simulation and optimization of atomic layer channel based FETs
  • 2019 - 2021 脳型コンピュータに向けた超低消費電力FETのための統合型低計算負荷シミュレータの開発と応用
  • 2018 - 2020 量子ゲート回路を応用した音楽作成システムの開発
  • 2015 - 2018 発熱・放熱制御と排熱有効利用を実現する超低消費電力デバイスの計算科学的デザイン
Show all
Papers (106):
  • Takashi Kato, Makoto Murata, Sundararajan Balasekaran, Yasuhiro Iguchi, Yojiro Nakayama, Satofumi Souma. (GaAs/InAs)-GaAsSb digital alloy type-II superlattice for extended short-wavelength infrared detection. Applied Physics Letters. 2024. 125. 16
  • Yusuke Hayashi, Satofumi Souma. Simulation of Qubits Confined in Pseudo Magnetic Field Generated by Strained Graphene Nanoribbon. 2024 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD). 2024. 1-4
  • Satofumi Souma, Shota Ogisawa. Simulation of graphene surface plasmon propagation based on tight-binding method and finite-difference time-domain method. IEICE Tech. Rep., vol. 123, no. 250, SDM2023-68, pp. 26-30, Nov. 2023. 2023
  • Takuya Ishibashi, Satofumi Souma. Quantum transport simulation of synaptic FETs based on two-dimensional semiconductors. 2023 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD). 2023
  • Shota Ogisawa, Satofumi Souma. Tight-binding simulation of graphene nanoantenna based on Boltzmann equation and finite difference time-domain method. 2023 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD). 2023
more...
Lectures and oral presentations  (198):
  • Application of machine learning and quantum computational algorithm for semiconductor device simulations
    (2022 GIST International Workshop for Accelerating Intelligence Semiconductor & AI 2022)
  • 量子的な関わり合いをカタチにする即興的音楽生成パフォーマンス
    (日本音楽即興学会 第14回大会 2022)
  • SISPAD2022レビュー
    (電子情報通信学会シリコン材料・デバイス研究会 2022)
  • ゲート式量子コンピューティングアルゴリズムを援用したナノスケールデバイスシミュレーション手法の検討
    (電子情報通信学会シリコン材料・デバイス研究会 2022)
  • 量子計算アルゴリズムを援用した強束縛近似法に基づく グラフェン状物質の電子状態解析手法の検討
    (応用物理学会関西支部講演会 2022)
more...
Education (1):
  • - 2000 Ph.D, Department of physics, Tokyo University of Science
Professional career (2):
  • M.Sc. (Tokyo University of Science)
  • Ph.D (Tokyo University of Science)
Work history (6):
  • 2009/04 - 現在 Kobe University Graduate School of Engineering, Department of Electrical and Electronic Engineering Associate Professor
  • 2007/04 - 2009/03 Kobe University Graduate School of Engineering, Department of Electrical and Electronic Engineering Assistant Professor
  • 2006/04 - 2007/03 Kobe University Faculty of Engineering, Department of Electrical and Electronic Engineering
  • 2005/04 - 2006/03 Postdoc at JST (Japan science and technology agency) Postdoc
  • 2003/09 - 2005/03 University of Delaware, Department of Physics and Astronomy, Quantum Transport Research Group Postdoc
Show all
Committee career (11):
  • 2023/07 - 現在 Steering Secretary
  • 2021/04 - 現在 International Conference on Solid State Devices and Materials (SSDM) Program Committee (Area 1)
  • 2018/04 - 現在 IMFEDK (International Meeting for Future of Electron Devices, Kansai) Program Committee
  • 2017/04 - 現在 JST グローバルサイエンスキャンパス(GSC)事業-実施機関:神戸大学 実施担当者
  • 2017/04 - 現在 SISPAD (International Conference on Simulation of Semiconductor Processes and Devices) Conference Committee
Show all
Awards (2):
  • 2019/10 - 公益社団法人日本表面真空学会 技術賞 超ミクロンスケール系に適用可能な 新しい量子輸送シミュレーション手法の開発
  • 2009/05 - IEEE International Meeting for Future of Electron Devices, Kansai (IMFEDK) Best Paper Award Influence of Edge Roughness on the Performance of Graphene Nano-Ribbon Devices
Association Membership(s) (3):
The Japanese Association for the Study of Musical IMprovisation ,  The Japan Society of Applied Physics ,  IEEE
※ Researcher’s information displayed in J-GLOBAL is based on the information registered in researchmap. For details, see here.

Return to Previous Page