プレプリント (preprints)

1. Takeru Yokota, Jun Haruyama, Osamu Sugino, "Functional renormalization group for classical liquids without recourse to hard-core reference systems: A study of three-dimensional Lennard-Jones liquids", https://doi.org/10.48550/arXiv.2510.16710.

査読付き論文 (Peer-reviewed papers)

1. Takeru Yokota and Tatsuhiko N. Ikeda, "Unpolarized prethermal discrete time crystal", Phys. Rev. A 112, 032212 (2025), https://doi.org/10.1103/9gml-hf8q.

2. Taiki Miyagawa and Takeru Yokota (co-first author), “Physics-informed Neural Networks for Functional Differential Equations: Cylindrical Approximation and Its Convergence Guarantees”, in 38th conference on Neural Information Processing Systems, NeurIPS2024 (2024),　https://doi.org/10.48550/arXiv.2410.18153.

3. Takeru Yokota, “Physics-informed neural network for solving functional renormalization group on lattice”, Phys. Rev. B 109, 214205 (2024), https://doi.org/10.1103/PhysRevB.109.214205.

4. Takeru Yokota, Yuta Ito, Hideo Matsufuru, Yusuke Namekawa, Jun Nishimura, Asato Tsuchiya, and Shoichiro Tsutsui, “Color superconductivity on the lattice — analytic predictions from QCD in a small box”, J. High Energ. Phys. 2023, 61 (2023), https://doi.org/10.1007/JHEP06(2023)061.

5. Takeru Yokota, Kanta Masuki, and Yuto Ashida, “Functional renormalization group approach to circuit quantum electrodynamics“, Phys. Rev. A 107, 04309 (2023), https://doi.org/10.1103/PhysRevA.107.043709.

6. Yuto Ashida, Takeru Yokota, Atac Imamoglu, and Eugene Demler, “Nonperturbative waveguide quantum electrodynamics”, Phys. Rev. Research 4, 023194 (2022), https://doi.org/10.1103/PhysRevResearch.4.023194.

7. Takeru Yokota and Tomoya Naito, “Construction of energy density functional for arbitrary spin polarization using functional renormalization group”, Phys. Rev. B 105, 035105 (2022), https://doi.org/10.1103/PhysRevB.105.035105.

8. Takeru Yokota, Jun Haruyama, and Osamu Sugino, “Functional-renormalization-group approach to classical liquids with short-range repulsion: a scheme without repulsive reference system”, Phys. Rev. E 104, 014124 (2021), https://doi.org/10.1103/PhysRevE.104.014124.

9. Takeru Yokota and Tomoya Naito, “Ab initio construction of the energy density functional for electron systems with the functional-renormalization-group-aided density functional theory”, Phys. Rev. Research 3, L012015 (2021), https://doi.org/10.1103/PhysRevResearch.3.L012015.

10. Takeru Yokota, Haruki Kasuya, Kenichi Yoshida, and Teiji Kunihiro, “Microscopic derivation of density functional theory for superfluid systems based on effective action formalism”, Prog. Theor. Exp. Phys. 2021, 013A03 (2020), https://doi.org/10.1093/ptep/ptaa173.

11. Takeru Yokota and Tomoya Naito, “Functional-renormalization-group aided density-functional analysis for the correlation energy of the two-dimensional homogeneous electron gas”, Phys. Rev. B 99, 115106 (2019), https://doi.org/10.1103/PhysRevB.99.115106.

12. Takeru Yokota, Kenichi Yoshida, and Teiji Kunihiro, “Ab initio description of excited states of 1D uniform matter with the Hohenberg-Kohn-theorem-inspired functional-renormalization-group method”, Prog. Theor. Exp. Phys. 2019, 011D01 (2019), https://doi.org/10.1093/ptep/pty139.

13. Takeru Yokota, Kenichi Yoshida, and Teiji Kunihiro, “Functional renormalization-group calculation of the equation of state of one-dimensional uniform mat-ter inspired by the Hohenberg-Kohn theorem”, Phys. Rev. C 99, 024302 (2019), https://doi.org/10.1103/PhysRevC.99.024302.

14. Takeru Yokota, Teiji Kunihiro, and Kenji Morita, “Tachyonic instability of the scalar mode prior to the QCD critical point based on the functional renormali-zation-group method in the two-flavor case”, Phys. Rev. D 96, 074028 (2017), https://doi.org/10.1103/PhysRevD.96.074028.

15. Takeru Yokota, Teiji Kunihiro, and Kenji Morita, “Functional renormalization group analysis of the soft mode at the QCD critical point”, Prog. Theor. Exp. Phys. 2016 073D01 (2016), https://doi.org/10.1093/ptep/ptw062.

その他論文・解説記事 (Other articles)

1. 横田猛, "汎関数くりこみ群法を用いたエネルギー密度汎関数の構築", 原子核研究68(2) 41, 2024年03月.

2. Shoichiro Tsutsui, Yuhma, Asano, Yuta Ito, Hideo Matsufuru, Yusuke Namekawa, Jun Nishimura, Asato Tsuchiya, and Takeru Yokota, “Color su-perconductivity in a small box: a complex Langevin study”, Proceedings of Science, LATTICE2021, 533 (2021), https://doi.org/10.22323/1.396.0533.

3. Takeru Yokota, Yuhma, Asano, Yuta Ito, Hideo Matsufuru, Yusuke Namekawa, Jun Nishimura, Asato Tsuchiya, and Shoichiro Tsutsui, “Perturbative predictions for color superconductivity on the lattice”, Proceedings of Science, LAT-TICE2021, 562 (2021), https://doi.org/10.22323/1.396.0562.

4. Yusuke Namekawa, Yuhma, Asano, Yuta Ito, Hideo Matsufuru, Jun Nishimura, Asato Tsuchiya, Shoichiro Tsutsui, and Takeru Yokota, “Perturbative predictions for color superconductivity on the lattice”, Proceedings of Science, LAT-TICE2021, 623 (2021), https://doi.org/10.22323/1.396.0623.

5. Takeru Yokota, Teiji Kunihiro and Kenji Morita, “Novel picture of the soft modes at the QCD critical point based on the FRG method”, the 10th International Conference on Critical Point and Onset of Deconfinement (CPOD 2016), Acta Physica Polonica B Proceedings Supplement, Vol. 10, pp 777-782, 2017, https://www.actaphys.uj.edu.pl/S/10/3/777.

招待講演

1. Takeru Yokota, "Neural network solver for functional differential equations and application to FRG", Functional Renormalization Group at RIKEN 2025, RIKEN Wako Campus & Zoom, August 2025.

2. 横田猛, 汎関数くりこみ群法を用いたエネルギー密度汎関数の構築, 若手奨励賞受賞記念講演, 日本物理学会 2024年春季大会, オンライン, 2024年3月

3. Takeru Yokota, Approach to classical liquids based on functional renormalization group, Second Workshop on Fundamentals in density functional theory (DFT2024), Auditorium, Integrated Innovation Building (IIB), RIKEN Kobe Campus, Kobe, Japan, February 2024

4. Takeru Yokota, Machine learning to solve functional renormalization group, Functional Renormalization Group at Niigata 2024, Kaishi Professional University at Niigata Japan & Zoom, January 2024.

5. Takeru Yokota, “Exact Evolution Equation for Energy Density Functional - Inspiration from Functional Renormalization Group -“ and “Hierarchical flow equation for classical liquid from functional renormalization group”, Hierarchical Structure and Machine Learning 2023, Institute for Solid State Physics, The University of Tokyo, Chiba, Japan, October 2023.

6. Takeru Yokota, "Density-based functional renormalization group for quantum many-body problems", Functional renormalization group at RIKEN 2023, RIKEN Wako campus, January 21-25, 2023.

7. Takeru Yokota, Jun Haruyama, and Osamu Sugino, “Analysis of classical liquids using functional renormalization group”, 11th International Conference on the Exact Renormalization Group 2022 (ERG2022), Harnack-Haus, Berlin, July 25-29, 2022.

8. Takeru Yokota, “Towards an ab-initio DFT via functional formalism”, YIPQS long-term workshop “Mean-field and Cluster Dynamics in Nuclear Systems 2022 (MCD2022)”, Yukawa Institute for Theoretical Physics, Kyoto University, Kyoto, Japan, May 9 – June 17, 2022.

9. Takeru Yokota, Teiji Kunihiro, Kenji Morita, “Tachyonic instability of the scalar mode prior to QCD critical point based on Functional renormalization-group method”, Functional Methods in Hadron and Nuclear Physics, ECT*, Trento, Italy, August 21-25, 2017.

10. Takeru Yokota, Teiji Kunihiro, Kenji Morita, “Spectral functions in functional renormalization group approach - analysis of the collective soft modes at the QCD critical point -”, 8th International Conference on the Exact Renormalization Group, The Abdus Salam International Centre for Theoretical Physics, Trieste, Italy, September 19-23, 2016.

一般講演

1. Takeru Yokota, "Unpolarized discrete time crystal", The 1st Joint General Meeting of RIKEN Quantum and the QII RIKEN User Group, RIKEN Wako Campus, 24 October 2025.

2. 横田猛, 春山潤,  杉野修, “密度汎関数フロー方程式による古典液体の二体分布関数の解析”, 物理学会第80回年次大会(2025年), 広島大学東広島キャンパス, 2025年9月16-19日.

3. 横田猛, "偏極を伴わない離散時間結晶", 熱場の量子論とその応用2025, 東京大学物性研究所, 2025年9月3-5日.

4. 横田猛, “物理情報に基づいたニューラルネットワークによる汎関数くりこみ群の解法, 日本物理学会2025年春季大会, オンライン, 2025年3月18-21日.

5. Takeru Yokota, Analysis of three-dimensional classical liquids via density functional flow equations, Third Workshop on Density Functional Theory: Fundamentals, Developments, and Applications (DFT2025), RIKEN Kobe Campus, 25-27 March 2025.

6. Takeru Yokota, Functional-renormalization-group approach to classical liquids with short-range repulsion: a scheme without repulsive reference system, American Physical Society’s March Meeting 2024, Minneapolis Convention Center, Minneapolis USA, March 2024.

7. 横田猛, 浅野侑磨, 伊藤祐太, 松古栄夫, 滑川裕介, 西村淳, 土屋麻人, 筒井翔一朗, “ウィルソンフェルミオンを用いた格子上のカラー超伝導の摂動論的解析と複素ランジュバン計算”, 日本物理学会2021年秋季大会, オンライン, 2021年9月14-17日.

8. Takeru Yokota, Yuhma, Asano, Yuta Ito, Hideo Matsufuru, Yusuke Namekawa, Jun Nishimura, Asato Tsuchiya, and Shoichiro Tsutsui, “Perturbative predictions for color superconductivity on the lattice”, The 38th International Symposium on Lattice Field Theory, LATTICE2021, online, July 26-30, 2021.

9. 横田猛, 内藤智也, “汎関数繰り込み群による電子系の相関エネルギー密度汎関数の局所密度近似における構築”, 日本物理学会第76回年次大会(2021年), オンライン, 2021年3月12-15日.

10. Takeru Yokota, Tomoya Naito, “Density Functional Theory for Electron Systems by the aid of Functional Renormalization Group”, 10th International Conference on the Exact Renormalization Group, Yukawa Institute for Theoretical Physics, Kyoto (online), November 2-6, 2020.

11. 横田猛, 加須屋春樹, 吉田賢市, 国広悌二, “Functional-renormalization group for superconducting DFT and the exact form of Kohn–Sham potential”, 日本物理学会2020年秋季大会, オンライン, 2020年9月14-17日.

12. Takeru Yokota, Yuhma Asano, Yuta Ito, Hideo Matsufuru, Yamekawa Namekawa, Jun Nishimura, Asato Tsuchiya, Shoichoro Tsutsui, “Towards color superconductivity on the lattice - perturbative predictions and the complex Langevin method -”, Asia-Pacific Symposium for Lattice Field Theory 2020, online, August 4-7, 2020.

13. 横田猛, 浅野侑磨, 伊藤祐太, 松古栄夫, 滑川裕介, 西村淳, 土屋麻人, 筒井翔一朗, “複素ランジュバン法に基づく有限密度 QCDの結果と格子摂動論との比較”, 物理学会第75回年次大会(2020年), 名古屋大学, 2020年3月16-19日.

14. 横田猛, 浅野侑磨, 伊藤祐太, 松古栄夫, 滑川裕介, 西村淳, 土屋麻人, 筒井翔一朗, “複素ランジュバン法による 低温高密度QCDの解明”, シミュレーションによる宇宙の基本法則と進化の解明に向けて, 京都大学基礎物理学研究所, 2019年12月16-19日.

15. 横田猛, 加須屋春樹, 吉田賢市, 国広悌二, “超流動状態への汎関数くりこみ群に基づいた密度汎関数理論の定式化”, 日本物理学会2019年秋季大会, 山形大学, 2019年9月17-20日.

16. 横田猛, 浅野侑磨, 伊藤祐太, 松古栄夫, 滑川裕介, 西村淳, 土屋麻人, 筒井翔一朗, “複素ランジュバン法によるカラー超伝導相の第一原理解析”, 日本物理学会2019年秋季大会, 山形大学, 2019年9月17-20日.

17. 横田猛, 内藤智也, “汎関数くりこみ群に基づいた密度汎関数理論による二次元一様電子系の解析”, 熱場の量子論とその応用2019, 京都大学基礎物理学研究所, 2019年9月2-4日.

18. 横田猛, 内藤智也, “汎関数くりこみ群に基づいた密度汎関数理論による二次元電子ガスの相関エネルギーの計算”, 物理学会第74回年次大会(2019年), 九州大学, 2019年3月14-17日.

19. Takeru Yokota, Kenichi Yoshida, Teiji Kunihiro, “Ab-initio functional-renormalization-group analysis of one-dimensional nuclear matter inspired by the Hohenberg-Kohn theorem”, Recent advances in nuclear structure physics 2018, Yukawa Institute for Theoretical Physics, Kyoto University, Kyoto, Japan, November 29-December 3, 2018.

20. Takeru Yokota, Kenichi Yoshida, Teiji Kunihiro, “Hohenberg-Kohn-theorem-inspired functional renormalization-group analysis of ground and excited states of a one-dimensional nuclear matte”, Fifth joint meeting of the nuclear physics divisions of the APS and the JPS, Hilton Waikoloa Village, Hawaii, USA, October 23-27, 2018.

21. 横田猛, 吉田賢市, 国広悌二, “汎関数繰り込み群に基づいた密度汎関数理論による非線型分散朝永－ラッティンジャー液体のスペクトル解析”, 日本物理学会2018年秋季大会, 同志社大学, 2018年9月9-12日.

22. 横田猛, 吉田賢市, 国広悌二, “汎関数くりこみ群に基づいた密度汎関数理論による一次元核物質の基底・励起状態の微視的記述”, 熱場の量子論とその応用2018, 理化学研究所, 2018年8月28-30日.

23. Takeru Yokota, Kenichi Yoshida, Teiji Kunihiro, “Hohenberg-Kohn-theorem-inspired functional renormalization-group analysis of ground and excited states of a one-dimensional nuclear matter”, The 4th workshop on many-body correlations in microscopic nuclear model, Senkaku-so, Sado, Aug. 18-20, 2018.

24. Takeru Yokota, Kenichi Yoshida, Teiji Kunihiro, “Functional renormalization-group analysis of ground and excited states of a one-dimensional nuclear matter inspired by the Hohenberg-Kohn theorem”, 9th International Conference on the Exact Renormalization Group, Sorbonne University, Paris, France, July 9-13, 2018.

25. 横田猛, 吉田賢市, 国広悌二, “Ab-initio description of excited states with renormalization group based density functional theory”, 物理学会第73回年次大会(2018年), 東京理科大学, 2018年3月22-25日.

26. 横田猛, 国広悌二, 森田健司, “汎関数くりこみ群を用いたQCD臨界点付近における超光速シグマモードの解析”, ハドロン・原子核物理の理論研究最前線 2017, 高エネルギー加速器研究機構, 2017年11月20-22日.

27. Takeru Yokota, Teiji Kunihiro, Kenji Morita, “Character change and tachyonic instability of the soft mode at QCD critical point based on Functional renormalization-group method”, Strangeness and charm in hadrons and dense matter, Yukawa Institute for Theoretical Physics, Kyoto University, Kyoto, Japan, May 15-26, 2017.

28. 横田猛, 国広悌二, 森田健司, “カレントクォーク質量の変化に伴うQCD臨界点でのソフトモードの特性変化”, 日本物理学会第72回年次大会(2017年), 大阪大学, 2017年3月17-20日.

29. 横田猛, 国広悌二, 森田健司, “汎関数くりこみ群によるスペクトル関数の計算とQCD臨界点におけるソフトモードの解析”, 原子核三者若手 夏の学校2016, 黒姫ライジングサンホテル, 2016年7月31日-8月5日.

30. Takeru Yokota, Teiji Kunihiro, Kenji Morita, “Novel picture of the soft modes at the QCD critical point based on the FRG method”, Critical Point and Onset of Deconfinement 2016, University of Wrocław, Wrocław, Poland, May 30-June 4, 2016.

31. 横田猛, 国広悌二, 森田健司, “汎関数繰り込み群に基づくQCD臨界点近傍での低エネルギーモードの新たな描像”, 日本物理学会　第71回年次大会（2016年）, 東北学院大学, 2016年3月19-22日.

32. 横田猛, 国広悌二, 森田健司, “汎関数くりこみ群を用いたQCD臨界点でのスペクトル関数の計算”, 日本物理学会2015年秋季大会, 大阪市立大学, 2015年9月25-28日.

ポスター発表

1. 横田猛, "Physics-informed neural networks for functional differential equations", 理研AIP数理科学チーム成果報告会, 理化学研究所日本橋オフィス・オープンスペース, 東京, 2025年8月8日.

2. Takeru Yokota, "Physics-informed neural networks for functional differential equations", RIKEN iTHEMS Now & Next 2025, 理化学研究所和光キャンパス, 2025年7月24-25日.

3. Taiki Miyagawa and Takeru Yokota (co-first author), “Physics-informed Neural Networks for Functional Differential Equations: Cylindrical Approximation and Its Convergence Guarantees”, 38th conference on Neural Information Processing Systems, NeurIPS2024 (2024), Vancouver Convention Center, Vancouver, December 2024.

4. Takeru Yokota, “Physics-informed Neural Networks for Functional Differential Equations”, DAIKIN International Symposium on Physics of Intelligence - Statistical Mechanics and Machine Learning: A Powerful Combination for Data Analysis - (ISPI2024), Koshiba Hall, the University of Tokyo, November 2024.

5. 横田猛, “Development of first-principles methods for quantum many-body systems based on functional-renormalization-group aided density functional theory”, 基礎科学特別研究員研究成果発表会, 理化学研究所和光キャンパス, 2024年1月23日.

6. Takeru Yokota, “Machine learning to solve functional renormalization group”, International conference on MACHINE LEARNING PHYSICS, Yukawa Institute for Theoretical Physics, Kyoto University, Kyoto, November 2023.

7. 横田猛, “Mathematical study of analytical methods for neutron-rich nuclear many-body systems”, 科技ハブ共同研究プログラム 2022年度合同ワークショップ, 理研神戸キャンパス, 2022年11月4日.

8. 横田猛, 浅野侑磨, 伊藤祐太, 松古栄夫, 滑川裕介, 西村淳, 土屋麻人, 筒井翔一朗, “複素ランジュバン法による低温高密度領域におけるQCD相の解明”, 第9回HPCIシステム利用研究課題 成果報告会, オンライン, 2022年10月28日.

9. 横田猛, 春山潤, 杉野修, “汎関数くりこみ群による古典液体の解析手法の開発”, 熱場の量子論とその応用2021, オンライン, 2021年8月30日-9月1日.

10. 横田猛, 内藤智也, “汎関数繰り込み群に基づいた密度汎関数理論による電子系の相関エネルギー密度汎関数の構築”, 物性研究所スパコン共同利用・CCMS合同研究会「計算物質科学の新展開2020」, オンライン, 2020年12月21-22日.

11. 横田猛, 浅野侑磨, 伊藤祐太, 松古栄夫, 滑川裕介, 西村淳, 土屋麻人, 筒井翔一朗, “格子QCDによるカラー超伝導の解明に向けて - 摂動論の予言と複素ランジュバン法 -”, 熱場の量子論とその応用2020, オンライン, 2020年8月24-26日.

12. Takeru Yokota and Tomoya Naito, “Application of the functional-renormalization-group aided density functional theory to the two-dimensional homogeneous electron gas”, 4th International Symposium on Research and Education of Computational Science (RECS), University of Tokyo, Tokyo, Japan, October 2, 2019.

13. Takeru Yokota, Teiji Kunihiro, Kenji Morita, “Instability toward the chiral inhomogeneous phase with the functional renormalization”, The 17th International Conference on QCD in Extreme Conditions, Tokyo Campus, University of Tsukuba, Japan, June 24-26, 2019.

14. Takeru Yokota, Teiji Kunihiro, Kenji Morita, “Tachyonic instability of the scalar mode prior to the QCD critical point based on the functional renormalization-group method in the two-flavor case”, The XXVIIth International Conference on Ultra-relativistic Nucleus-Nucleus Collisions, Palazzo del Cinema, Lido di Venezia, Italy, May 14-19, 2018.

15. 横田猛, 国広悌二, 森田健司, “汎関数くりこみ群に基づいたQCD臨界点におけるソフトモードの新たな描像”, 熱場の量子論とその応用2016, 理化学研究所和光キャンパス, 2016年8月22-24日.

16. Takeru Yokota, Teiji Kunihiro, Kenji Morita, “Spectral function analysis of the hydrodynamical mode around the QCD critical point with use of functional renormalization group”, The XXVth International Conference on Ultrarelativistic Nucleus-Nucleus Collisions, Kobe Fashion Mart, Kobe, Japan, September 27-October 3, 2015.

セミナー発表

1. Takeru Yokota, “Physics-informed neural networks for solving functional renormalization group”, IPI seminar at University of Tokyo, 20 December 2024.

2. Takeru Yokota, “Functional renormalization group: an introduction & inspiration from machine learning”, GPPU seminar at Tohoku University, 21 June 2024.

3. Takeru Yokota, “Functional renormalization group - Introduction & combination with machine learning”, Seminar at Fudan University, China, 13 May 2024.

4. Takeru Yokota, “Physics-informed neural network for solving functional renormalization group on lattice”, Seminar at University of Vienna, online, 26 February 2024.

5. Takeru Yokota, ”Functional-renormalization-group approach to classical liquids”, ISSP theory seminar, Institute for Solid State Physics, Kashiwa campus, U. Tokyo, March 15, 2023.

6. 横田猛, “密度汎関数理論の基礎”, RIKEN iTHEMS ラジオ講座 on Discord, 2022年3月4日.

7. Takeru Yokota, “Classical Liquids & Functional Renormalization Group”, RIKEN iTHEMS Theoretical Physics Seminar, online, 17 December 2020.

8. 横田猛, “汎関数繰り込み群に基づいた密度汎関数理論の最近の発展”, 京大核理コロキウム, オンライン, 2020年5月27日.

9. 横田猛. “汎関数くりこみ群に基づいた密度汎関数理論”, 理論セミナー, 物性研究所, 東京大学柏キャンパス, 2019年6月14日

10. Takeru Yokota, “Functional-renormalization-group aided density-functional theory - applications to one-dimensional nuclear matter and two-dimensional electron gas”, Seminar in KEK theory center, 11 December 2018.

11. Takeru Yokota, “Functional renormalization group-aided density functional theory”, seminar in Quantum Hadron Physics Laboratory, RIKEN, 15 October 2018.

12. Takeru Yokota, “Functional renormalization group-aided density functional theory -success in (1+1) dimensions-”, DFT meeting, online, 11 May 2018.

13. Takeru Yokota, ”Tachyonic instability of the scalar mode prior to the QCD critical point based on the functional renormalization-group method in the two-flavor case”, seminar in Quantum Hadron Physics Laboratory, RIKEN, 14 November 2017.

14. 横田猛, ”汎関数くりこみ群によるスペクトル関数の計算及びそのQCD臨界点における低エネルギーモードの振る舞いの解析への応用”, 大阪大学原子核グループセミナー, 2017年7月14日.

1. 第18回(2024年)日本物理学会若手奨励賞(第25回核理論新人論文賞), 2023年10月.

2. Best presentation award (presentation title: Density functional theory for elec-tron systems by the aid of functional renormalization group), Exact Renormali-zation Group 2020, Yukawa Institute for Theoretical Physics, Kyoto (online), Japan, November 2020.

1. "密度汎関数理論の汎関数微分方程式と機械学習の融合による量子多体系の解析法の開拓, 科学研究費, 令和7(2025)年度 研究活動スタート支援, 25K23364, 2025年7月~2027年3月.

2. “対称性を組み込んだ機械学習による汎関数くりこみ群法の高度化”, 科学研究費, 令和7(2025)年度 奨励研究, 25H00177, 2025年4月~7月.

3. “中性子過剰な原子核多体系に対する解析手法の数学的研究”, 令和4年度理研-九大科学技術ハブ共同研究プログラム, 2022年7月~2023年3月.

4. “汎関数繰り込み群に基づいた密度汎関数理論による量子多体系の新たな解析法の開発”, 科学研究費補助金, 特別研究員奨励費, 20J00644, 2020年4月~2021年2月.

5. “汎関数くりこみ群を用いたＱＣＤ相転移と臨界ダイナミクスの研究”, 科学研究費補助金, 特別研究員奨励費, 16J08574, 2016年4月~2019年3月.