Ryui Kaneko

(金子隆威)

Profile Information

Affiliation: Associate Professor, Faculty of Science and Technology Department of Engineering and Applied Sciences, Sophia University

Degree: 博士（工学）(Mar, 2014, 東京大学)

Researcher number: 10881211
ORCID ID: https://orcid.org/0000-0001-7994-6381
J-GLOBAL ID: 202001017754293736
Researcher ID: AAO-8173-2020
researchmap Member ID: R000002596

External link: https://sites.google.com/site/ryuikanekoswebsite

Researchmap: ryuikaneko

Scopus ID: 36456855100

ResearchGate: Ryui-Kaneko

KAKEN: 10881211

Google Scholar My Citations: Ryui Kaneko

GitHub: ryuikaneko (my repositories)

Email: ryuikaneko_at_sophia.ac.jp

Address:

〒102-8554 東京都千代田区紀尾井町7-1

上智大学理工学部機能創造理工学科 9号館254A

Department of Engineering and Applied Sciences, Faculty of Science and Technology, Sophia University

Bldg. 9, Room 254A

7-1 Kioicho, Chiyoda-ku, Tokyo

102-8554, Japan

Research Interests

Research Areas

Research History

Apr, 2024 - Present

Specially Appointed Associate Professor, Department of Engineering and Applied Sciences, Faculty of Science and Technology, Sophia University
Apr, 2023 - Mar, 2024

Visiting Associate Professor, Faculty of Science and Technology Department of Engineering and Applied Sciences, Sophia University
Apr, 2023 - Mar, 2024

Researcher (Associate Professor), Research Institute for Science and Engineering, Waseda University
Apr, 2020 - Mar, 2023

Postdoctoral researcher, Department of Physics, Kindai University
Apr, 2017 - Mar, 2020

Postdoctoral researcher, The Institute for Solid State Physics, The University of Tokyo

Education

Apr, 2011 - Mar, 2014

Department of Applied Physics, The Faculty of Engineering, The University of Tokyo
Apr, 2009 - Mar, 2011

Department of Applied Physics, The Graduate School of Engineering, The University of Tokyo
Apr, 2005 - Mar, 2009

Department of Physics, School of Science, Tokyo Institute of Technology

Committee Memberships

Apr, 2024 - Mar, 2025

領域8領域運営委員, 日本物理学会

Awards

Jan, 2023

The 28th Outstanding Paper Award of the Physical Society of Japan, Gapless Spin-Liquid Phase in an Extended Spin 1/2 Triangular Heisenberg Model, Physical Society of Japan

Ryui Kaneko, Satoshi Morita, and Masatoshi Imada
May, 2016

Most Cited Articles in 2016 from Vol. 84 (2015), Quantum Spin Liquid in Spin 1/2 J1–J2 Heisenberg Model on Square Lattice: Many-Variable Variational Monte Carlo Study Combined with Quantum-Number Projections, Journal of the Physical Society of Japan

Satoshi Morita, Ryui Kaneko, Masatoshi Imada
Jul, 2015

Poster prize at the 20th International Conference on Magnetism (ICM2015), Spontaneous symmetry breaking in variational wave functions: When is it possible?, 20th International Conference on Magnetism (ICM2015)

Ryui Kaneko
May, 2015

Most Cited Articles in 2015 from Vol. 83 (2014), Gapless Spin-Liquid Phase in an Extended Spin 1/2 Triangular Heisenberg Model, Journal of the Physical Society of Japan

Ryui Kaneko, Satoshi Morita, Masatoshi Imada
Dec, 2012

Poster prize at the third Computational Materials Science Initiative (CMSI) Meeting, Computational Materials Science Initiative (CMSI)

Ryui Kaneko

Papers

Seeding neural network quantum states with tensor network states

Ryui Kaneko, Shimpei Goto

Physical Review B, Oct 27, 2025 Peer-reviewed
Entanglement entropy dynamics of non-Gaussian states in free boson systems: Random sampling approach

Ryui Kaneko, Daichi Kagamihara, Ippei Danshita

Physical Review A, Mar 11, 2025 Peer-reviewed
Forecasting long-time dynamics in quantum many-body systems by dynamic mode decomposition

Ryui Kaneko, Masatoshi Imada, Yoshiyuki Kabashima, Tomi Ohtsuki

Physical Review Research, Jan 23, 2025 Peer-reviewed
Surface criticality in the mixed-field Ising model with sign-inverted next-nearest-neighbor interaction

Yuki Nakamura, Ryui Kaneko, Ippei Danshita

Physical Review A, Sep 17, 2024 Peer-reviewed
Ground-state phase diagram of the SU(4) Heisenberg model on a plaquette lattice

Ryui Kaneko, Shimpei Goto, Ippei Danshita

Physical Review A, Aug 27, 2024 Peer-reviewed
Channel attention for quantum convolutional neural networks

Gekko Budiutama, Shunsuke Daimon, Hirofumi Nishi, Ryui Kaneko, Tomi Ohtsuki, Yu-ichiro Matsushita

Physical Review A, Jul 19, 2024 Peer-reviewed
Quantum many-body scars in the Bose-Hubbard model with a three-body constraint

Ryui Kaneko, Masaya Kunimi, Ippei Danshita

Physical Review A, Jan 18, 2024 Peer-reviewed
Superconductivity Studied by Solving Ab Initio Low-Energy Effective Hamiltonians for Carrier Doped CaCuO2 , Bi2Sr2CuO6 , Bi2Sr2CaCu2O8 , and HgBa2CuO4

Michael Thobias Schmid, Jean-Baptiste Morée, Ryui Kaneko, Youhei Yamaji, Masatoshi Imada

Physical Review X, Nov 28, 2023 Peer-reviewed
Dynamics of correlation spreading in low-dimensional transverse-field Ising models

Ryui Kaneko, Ippei Danshita

Physical Review A, Aug 1, 2023 Peer-reviewed
Rényi entanglement entropy after a quantum quench starting from insulating states in a free boson system

Daichi Kagamihara, Ryui Kaneko, Shion Yamashika, Kota Sugiyama, Ryosuke Yoshii, Shunji Tsuchiya, Ippei Danshita

Physical Review A, Mar 6, 2023 Peer-reviewed
Evaluating thermal expectation values by almost ideal sampling with Trotter gates

Shimpei Goto, Ryui Kaneko, Ippei Danshita

Physical Review B, 107(2), Jan 25, 2023 Peer-reviewed
Resonant superfluidity in the Rabi-coupled spin-dependent Fermi-Hubbard model

Mathias Mikkelsen, Ryui Kaneko, Daichi Kagamihara, Ippei Danshita

Physical Review A, Oct 19, 2022 Peer-reviewed
Ground-state phase diagram of a spin- 12 frustrated XXZ ladder

Takuhiro Ogino, Ryui Kaneko, Satoshi Morita, Shunsuke Furukawa

Physical Review B, Oct 3, 2022 Peer-reviewed
Tensor-network study of correlation-spreading dynamics in the two-dimensional Bose-Hubbard model

Ryui Kaneko, Ippei Danshita

Communications Physics, 5(1), Mar, 2022 Peer-reviewed
Multiple magnetization plateaus induced by farther neighbor interactions in an S=1 two-leg Heisenberg spin ladder

Hidehiko Kohshiro, Ryui Kaneko, Satoshi Morita, Hosho Katsura, Naoki Kawashima

Physical Review B, 104(21), Dec 6, 2021 Peer-reviewed
Symmetry-protected topological phases and competing orders in a spin-12 XXZ ladder with a four-spin interaction

Takuhiro Ogino, Shunsuke Furukawa, Ryui Kaneko, Satoshi Morita, Naoki Kawashima

Physical Review B, 104(7), Aug, 2021 Peer-reviewed
Matrix product state approach for a quantum system at finite temperatures using random phases and Trotter gates

Shimpei Goto, Ryui Kaneko, Ippei Danshita

Physical Review B, 104(4), Jul, 2021 Peer-reviewed
Reentrance of the Disordered Phase in the Antiferromagnetic Ising Model on a Square Lattice with Longitudinal and Transverse Magnetic Fields

Ryui Kaneko, Yoshihide Douda, Shimpei Goto, Ippei Danshita

Journal of the Physical Society of Japan, 90(7) 073001-073001, Jul, 2021 Peer-reviewed
Continuous phase transition between Néel and valence bond solid phases in a J−Q-like spin ladder system

Takuhiro Ogino, Ryui Kaneko, Satoshi Morita, Shunsuke Furukawa, Naoki Kawashima

Physical Review B, 103(8), Feb 11, 2021 Peer-reviewed
Magnetic field induced quantum phases in a tensor network study of Kitaev magnets

Hyun-Yong Lee, Ryui Kaneko, Li Ern Chern, Tsuyoshi Okubo, Youhei Yamaji, Naoki Kawashima, Yong Baek Kim

Nature Communications, 11(1), Apr 2, 2020 Peer-reviewed
Magnetic field induced competing phases in spin-orbital entangled Kitaev magnets

Li Ern Chern, Ryui Kaneko, Hyun-Yong Lee, Yong Baek Kim

Physical Review Research, 2(1), Jan 6, 2020 Peer-reviewed
Abelian and non-Abelian chiral spin liquids in a compact tensor network representation

Hyun-Yong Lee, Ryui Kaneko, Tsuyoshi Okubo, Naoki Kawashima

Physical Review B, 101(3), Jan, 2020 Peer-reviewed
Gapless Kitaev Spin Liquid to Classical String Gas through Tensor Networks

Hyun-Yong Lee, Ryui Kaneko, Tsuyoshi Okubo, Naoki Kawashima

Physical Review Letters, 123(8), Aug, 2019 Peer-reviewed
Thermal algebraic-decay charge liquid driven by competing short-range Coulomb repulsion

Ryui Kaneko, Yoshihiko Nonomura, Masanori Kohno

Physical Review B, 97(20), May, 2018 Peer-reviewed
Suppression of topological Mott-Hubbard phases by multiple charge orders in the honeycomb extended Hubbard model

Mario Bijelic, Ryui Kaneko, Claudius Gros, Roser Valentí

Physical Review B, 97(12), Mar, 2018 Peer-reviewed
Charge orders in organic charge-transfer salts

Ryui Kaneko, Luca Fausto Tocchio, Roser Valenti, Federico Becca

New Journal of Physics, Aug, 2017 Peer-reviewed
Emergent lattices with geometrical frustration in doped extended Hubbard models

Ryui Kaneko, Luca F. Tocchio, Roser Valentí, Claudius Gros

Physical Review B, 94(19), Nov 7, 2016 Peer-reviewed
Spontaneous symmetry breaking in correlated wave functions

Ryui Kaneko, Luca F. Tocchio, Roser Valentí, Federico Becca, Claudius Gros

Physical Review B, 93(12), Mar, 2016 Peer-reviewed
Quantum Spin Liquid in Spin 1/2 J1–J2 Heisenberg Model on Square Lattice: Many-Variable Variational Monte Carlo Study Combined with Quantum-Number Projections

Satoshi Morita, Ryui Kaneko, Masatoshi Imada

Journal of the Physical Society of Japan, 84(2) 024720-024720, Feb, 2015 Peer-reviewed
Gapless Spin-Liquid Phase in an Extended Spin 1/2 Triangular Heisenberg Model

Ryui Kaneko, Satoshi Morita, Masatoshi Imada

Journal of the Physical Society of Japan, 83(9) 093707-093707, Sep, 2014 Peer-reviewed
Improved multi-variable variational Monte Carlo method examined by high-precision calculations of one-dimensional Hubbard model

Ryui Kaneko, Satoshi Morita, Masatoshi Imada

Journal of Physics: Conference Series, 454 012046-012046, Aug, 2013 Peer-reviewed
Magnetization Step in Spatially Distorted Heisenberg Kagomé Antiferromagnets

Ryui Kaneko, Takahiro Misawa, Masatoshi Imada

Journal of the Physical Society of Japan, 79(7) 073708-073708, Jul, 2010 Peer-reviewed

Misc.

Adaptive Interpolating Quantum Transform: A Quantum-Native Framework for Efficient Transform Learning

Gekko Budiutama, Shunsuke Daimon, Hirofumi Nishi, Ryui Kaneko, Tomi Ohtsuki, Yu-ichiro Matsushita

Aug, 2025
Numerical Study of Strongly Correlated Electron Systems with Geometrical Frustration

Ryui Kaneko

Doctor thesis, Department of Applied Physics, Faculty of Engineering, University of Tokyo, Mar, 2014
Theoretical Study of Classical and Quantum Heisenberg Model on Kagome Lattice

Ryui Kaneko

Master thesis, Department of Applied Physics, Faculty of Engineering, University of Tokyo, Mar, 2011

Books and Other Publications

Introduction to machine learning physics

橋本, 幸士, 富谷, 昭夫, 金子, 隆威, 瀧, 雅人, 広野, 雄士, 唐木田, 亮, 三内, 顕義 (Role: Joint author)

朝倉書店, Oct, 2025 (ISBN: 9784254131543)
学習物理学入門 = Introduction to Machine Learning Physics

橋本, 幸士, 富谷, 昭夫, 金子, 隆威, 瀧, 雅人, 広野, 雄士, 唐木田, 亮, 三内, 顕義

朝倉書店, Nov, 2024 (ISBN: 9784254131529)

Presentations

129

Efficient entanglement entropy computation of non-Gaussian-state dynamics in free Boson systems

Ryui Kaneko

International Workshop Extreme Universe 2025, Oct 30, 2025
多変数変分モンテカルロ法による三層系銅酸化物超伝導体の圧力依存性の解析

金子隆威, 今田正俊

日本物理学会 2025年秋季大会, Sep 18, 2025
Data-driven method for predicting quantum dynamics: dynamic mode decomposition approach

R. Kaneko, M. Imada, Y. Kabashima, T. Ohtsuki

The 30th International Conference on Low Temperature Physics (LT30), Aug 8, 2025
テンソルネットワークによる量子系の実時間シミュレーション

金子隆威

Tensor Network 2025, Jul 18, 2025 Invited
超伝導物質の波動関数の生成

金子隆威

シンポジウム AIと物理学の融合：学習物理学から生成科学へ, Jun 22, 2025 Invited

Teaching Experience

Apr, 2016 - Jul, 2016

Quantum Mechanics, Prof. W. Hofstetter, TA (Goethe-University Frankfurt am Main)
Oct, 2015 - Feb, 2016

Introduction to Programming for Physicists, Prof. E. Engel, TA (Goethe-University Frankfurt am Main)
Oct, 2014 - Feb, 2015

Introduction to Programming for Physicists, Prof. E. Engel, TA (Goethe-University Frankfurt am Main)
Oct, 2011 - Feb, 2012

Exercises in Applied Physics (Quantum Mechanics) TA (The University of Tokyo)
Apr, 2010 - Aug, 2010

Exercises in Applied Physics (Quantum Mechanics) TA (The University of Tokyo)

Professional Memberships

Jan, 2010 - Present

Physical Society of Japan

Research Projects

人工ニューラルネットワーク波動関数を用いた量子多体系の非平衡ダイナミクスの研究

科学研究費助成事業, 日本学術振興会, Apr, 2025 - Mar, 2028

金子隆威
Tensor netowrk study of quantum spin liquids in nonequilibrium systems

Grants-in-Aid for Scientific Research, Japan Society for the Promotion of Science, Apr, 2024 - Mar, 2026
Two-dimensional tensor-network study of real-time dynamics in quantum many-body systems

Grants-in-Aid for Scientific Research, Japan Society for the Promotion of Science, Apr, 2021 - Mar, 2024

Kaneko Ryui
幾何学的フラストレーションを有する物質群に現れる状態の統一的理解

Grants-in-Aid for Scientific Research Grant-in-Aid for JSPS Fellows, Japan Society for the Promotion of Science, Apr, 2011 - Mar, 2014

Academic Activities

日本物理学会領域8 領域運営委員（磁性、理論）

Planning, Management, etc.

Apr 1, 2024 - Mar 31, 2025
Journal of the Physical Society of Japan: SPECIAL TOPICS: Machine Learning Physics 担当編集委員

Planning, Management, etc.

Aug, 2024 - Mar, 2025

Media Coverage

機械学習を組込んだ第一原理強相関電子状態計算法を用いて、銅酸化物超伝導の物質依存性を定量再現し、超伝導を制御する主成分が明らかに

Nov, 2023 Internet

機械学習を組込んだ第一原理強相関電子状態計算法を用いて、銅酸化物超伝導の物質依存性を定量再現し、超伝導を制御する主成分が明らかに −明らかになった銅酸化物の大局的位置の解明から物質設計の指針も− 発表のポイント銅酸化物のような強相関電子系（注1）に適した第一原理計算手法（注２）に人工ニューラルネットワーク（注３）を用いる機械学習の手法を組み込んで開発した高精度の量子多体計算法（注４）を、任意パラメタなしに物質に即して適用し、スーパーコンピュータ「富岳」（注５）を活用して、40年近くの謎だった銅酸化物の超伝導解明に役立てました。最適超伝導転移温度の大きく異なる4種類の銅酸化物物質群とそのキャリア濃度依存性を網羅的に計算して実験で見られる物質依存性を再現しました。現実の銅酸化物で超伝導がどのように制御されるかの主要因を突き止めました。強い電子相関にもかかわらず、現実の銅酸化物では電子相関とともにさらに超伝導が増大するような「弱結合」領域に属するという、銅酸化物の大局的位置が明らかになりました。これにより、局所クーロン斥力（同じ符号の電荷をもつ電子間に働いている斥力的なクーロン相互作用）を強め、非局所クーロン斥力を弱めることがさらなる超伝導増強につながるという物質設計指針への示唆が得られました。超伝導を引き起こすクーパー対の形成に必要な有効引力が、「強い局所斥力から有効引力が生じる」という一見逆説的な創発性に由来することを明らかにしました。高温超伝導発生の背景に電子の「分数化」（注６）があるというメカニズムと符合する結果が得られました。 https://www.waseda.jp/inst/research/news/75754 https://www.sophia.ac.jp/jpn/article/news/release/20231127release/ https://www.sophia.ac.jp/assets/uploads/2023/11/1525f7a14a3a75c89cd557d1182ea7a1.pdf https://www.jicfus.jp/jp/press231129/ https://www.r-ccs.riken.jp/outreach/topics/20231129-1/ Model Correctly Predicts High-Temperature Superconducting Properties https://physics.aps.org/articles/v16/s170
二次元での量子シミュレーションの性能を検証する新手法を確立量子シミュレータの開発に貢献する研究成果

Mar, 2022 Internet

二次元での量子シミュレーションの性能を検証する新手法を確立量子シミュレータの開発に貢献する研究成果近畿大学理工学部（大阪府東大阪市）理学科物理学コース研究員金子隆威と、准教授段下一平は、物理学で用いる高精度な数値計算手法「ＰＥＰＳ法」と、量子の複雑な挙動を再現する量子シミュレーションという２つの方法で２次元空間において多数の量子の動きを調べ、この２つの手法の性能を相互検証しました。その結果、双方の信頼性が確認でき、さらに、ＰＥＰＳ法を用いてこれまで調べることができていなかった未開拓のパラメーター領域において、量子情報の伝搬速度を算出することにも成功しました。本研究成果は、２次元での量子シミュレーションの性能を検証する新たな手法を確立するもので、今後の量子シミュレーター開発に貢献できると期待されます。また、量子情報伝搬の基礎理論構築にも役立ちます。本件に関する論文は、２０２２年３月２１日（月）（日本時間）に、物理科学分野の国際的な学術雑誌「ＣｏｍｍｕｎｉｃａｔｉｏｎｓＰｈｙｓｉｃｓ」に掲載されます。本研究は、「ＪＳＴ創発的研究支援事業」課題番号ＪＰＭＪＦＲ２０２Ｔ、「ＪＳＴＣＲＥＳＴ」課題番号ＪＰＭＪＣＲ１６７３、「ＪＳＰＳ科学研究費」課題番号１８Ｈ０５２２８、２１Ｈ０１０１４、２１Ｋ１３８５５、「文部科学省Ｑ－ＬＥＡＰ」課題番号ＪＰＭＸＳ０１１８０６９０２１による助成を受けたものです。 https://www.jst.go.jp/pr/announce/20220321/index.html https://research-er.jp/articles/view/108863 https://www.nikkei.com/article/DGXZRSP628795_22032022000000/ https://newscast.jp/news/6201240 https://news.mynavi.jp/techplus/article/20220323-2301346/

To the list screen