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Results

1) Publications from International Collaborative Research

  1. Maoji Liu, Zhanglin Hou, Hiroyuki Kitahata (1-60), Linli He, and Shigeyuki Komura(4-1), "Non-reciprocal Phase Separations with Non-conserved Order Parameters", J. Phys. Soc. Jpn. 92, 093001 (2023. 8).
  1. Schnyder, S. K. (1-30), Molina, J. J. (1-91), Yamamoto Ryoichi (1-1) & Turner, M. S. (2-1), Rational social distancing policy during epidemics with limited healthcare capacity. PLOS Comput. Biol. 19, e1011533 (2023).
  1. Feng Chao, Molina John J. (1-91), Turner Matthew S. (2-1), Yamamoto Ryoichi (1-1), Dynamics of microswimmers near a liquid-liquid interface with viscosity difference, Physics of Fluids 35, 051903 (2023).
  1. Kobayashi Takuya (1-97), Jung Gerhard, Matsuoka Yuki, Nakayama Yasuya (1-50), Molina John J. (1-91), Yamamoto Ryoichi (1-1), Direct numerical simulations of a microswimmer in a viscoelastic fluid, Soft Matter 19, 7109-7121 (2023).
  1. Sankaewtong Krongtum (1-94), Molina John J. (1-91), Turner Matthew S. (2-1), Yamamoto Ryoichi (1-1), Learning to swim efficiently in a nonuniform flow field, Physical Review E 107, 065102 (2023).
  1. Yuta Tateyama(1-116), Hiroaki Ito(1-61), Shigeyuki Komura(4-1), and Hiroyuki Kitahata(1-60), Phys. Rev. E 110, 054209/1-9 (2024.11).
  1. Schnyder, S. K. (1-30), Molina, J. J. (1-91), 山本量一(1-1) & Turner, M. S. (2-1), Understanding Nash epidemics, PNAS 122 (9) e2409362122 (2025)
  1. L.-S. Lin, K. Yasuda(1-20), K. Ishimoto(1-18), and S. Komura, "Emergence of odd elasticity in a microswimmer using deep reinforcement learning", Phys. Rev. Research 6, 033016 (11pp) (2024).
  1. K. Yasuda(1-20), K. Ishimoto(1-18), and S. Komura(4-1), "Statistical formulation of Onsager-Machlup variational principle", Phys. Rev. E 110, 044104 (9pp) (2024).
  1. J. Li, Z. Zhang, Z. Hou, K. Yasuda(1-20), L. He, S. Komura(4-1), "Time-correlation functions of stochastic three-sphere micromachines", Phys. Rev. E 110, 044603 (12pp) (2024).

2) Presentations from International Collaborative Research: International

  1. 〇Sakurako Tanida, Kana Fuji, Tetsuya Hiraiwa, Makiko Nonomura, and Masaki Sano, "Mechanical Factors in Organoid Morphogenesis: Insights from a Phase Field Model", The 7th International Soft Matter Conference (ISMC2023), Osaka, Japan, September 4-8, 2023, (reviewed, contribution talk)
  1. 〇Sakurako Tanida, Kana Fuji, Tetsuya Hiraiwa, Makiko Nonomura, and Masaki Sano, "Mechanistic Insights into Monolayer Persistence and Branching Architectures in Organoid Morphogenesis: A Numerical Simulation Study ", Advanced core-to-core network for the physics of self-organizing active matter, Kyoto, Japan, September 11-13, 2023, (Poster)
  1. ○A. N. Kato, Y. Jiang, W. Chen, R. Seto, T. Li, Interfacial behaviors of rough colloids. The 7th International Soft Matter Conference, Osaka (Japan), oral, Sep. 7, 2023.
  1. ○Schnyder, S. K. (1-30), Molina, J. J. (1-91), 山本量一(1-1) & Turner, M. S. (2-1), Rational social distancing policy during epidemics with limited healthcare capacity, Satellite Meeting of the 28th International Conference on Statistical Physics (STATPHYS28) on “Statistical Physics and Information-Processing in Living Systems”, 東京大学 (2023.8.4.).
  1. ○Yamamoto Ryoichi (1-1), Kobayashi Takuya (1-97), Feng Chao, Molina John J. (1-91), Turner Matthew S. (2-1),  Direct Numerical Simulations (DNS)of active particles in complex environments, Cambridge (UK), Oral (Invited), 3 July 2023
  1. ○Yamamoto Ryoichi (1-1), Kobayashi Takuya (1-97), Feng Chao, Molina John J. (1-91), Turner Matthew S. (2-1),  Direct numerical simulations (DNS) of active particles with fully resolved hydrodynamics, Kyoto (Japan), Oral, 6 Sep. 2023
  1. ○Yamamoto Ryoichi (1-1), Kobayashi Takuya (1-97), Feng Chao, Molina John J. (1-91), Turner Matthew S. (2-1),  Direct numerical simulations of active particles with fully resolved hydrodynamics, Advanced core-to-core network for the physics of self-organizing active matter, workshop in Wenzhou, Wenzhou (China) Oral (Invited), 30 Jan. 2024
  1. ○Yamamoto Ryoichi (1-1), Kobayashi Takuya (1-97), Feng Chao, Molina John J. (1-91), Turner Matthew S. (2-1),  Simulations of hydrodynamically interacting particles, JNCASR - CECAM Conference - MD@60, Bangaroler (India), Oral (Invited), 28 Feb. 2024
  1. ○Yuta Tateyama(1-116), Hiroaki Ito(1-61), Shigeyuki Komura(4-1), and Hiroyuki Kitahata(1-60),  International Conference on "Self-organization in Life and Matter", Meiji University, Nakano Campus (ポスター発表),(2024.9.10)  Excellent Poster Presentation Award受賞
  1. ○Yusuke Kato(1-83), Jan Albrecht, Hiroshi Kori, Robert Großmann, and Carsten Beta(3-4) "Parameter estimation and Bayesian comparison of Langevin models describing cell motility" DPG (Deutschen Physikalischen Gesellschaft) Spring Meeting in Regensburg (Germany), (ポスター発表), 2025.3.19.
  1. ○Schnyder, S. K. (1-30), Molina, J. J. (1-91), 山本量一(1-1) & Turner, M. S. (2-1), Nash Epidemics, International Active Matter Workshop 2025, 明治大学 (Oral) (2024.1.24.).
  1. Lynch, M(2-5), Schnyder, S. K. (1-30), Molina, J. J. (1-91), 山本量一(1-1) & ◯Turner, M. S. (2-1), Altruism in Epidemics, TSVP Symposium: Computational and Physical Understanding of Biological Information Processing, Okinawa Institute of Science and Technology, Okinawa, Japan (Oral) (2024.3.7.).
  1. ○Molina, J. J. (1-91), Lynch, M(2-5), Schnyder, S. K. (1-30), 山本量一(1-1) & Turner, M. S. (2-1), Physics-Informed Machine-Learning for the Physical and Social Sciences, TSVP Program: Computational and Physical Understanding of Biological Information Processing (Topic 5: Data Science & Physics), Okinawa Institute of Science and Technology, Okinawa, Japan (Oral) (2025.3.12).
  1. Ogawa, K, ○Molina, J. J. (1-91), 谷口貴志(1-90), Bayesian Machine Learning for Inverse Problems in Soft Matter, The Physics of Self-Organizing Matter (Higgs Center Workshop), University of Edinburgh, Edinburgh, Scotland (Oral) (2024.7.08).
  1. 〇谷田 桜子(1-29), Thorsten Poeschel, "Synchronization Phenomena in High-Rise Elevator Systems with Zoned Floors", The 15th edition of Traffic and Granular Flow, December 2-5, 2024, Lyon, France. (口頭発表), (2024.12.5)
  1. ◯K. Yasuda(1-20), K. Ishimoto(1-18), S. Komura(4-1) “Statistical formulation of Onsager-Machlup variational principle”, Long-term Workshop on Frontiers in Non-equilibrium Physics 2024, 4th week P14, Kyoto, 2024年7月.
  1. ◯K. Yasuda(1-20), K. Ishimoto(1-18), S. Komura(4-1), “Statistical formulation of the Onsager-Machlup variational principle”, International Active Matter Workshop 2025, Tokyo, 2025年1月.

3) Presentations from International Collaborative Research: Domestic

  1. ○楯山裕太,伊藤弘明,好村滋行(4-1),北畑裕之(1-60),"非相反Swift-Hohenberg方程式系におけるパターンダイナミクス", 第33回「非線形反応と協同現象」研究会,東京理科大学葛飾キャンパス(ポスター発表),(2023.12.2)
  1. ○楯山裕太,伊藤弘明,好村滋行(4-1),北畑裕之(1-60), "非相反Swift-Hohenberg方程式における相分離ダイナミクスの数値解析", 第11回ソフトマター研究会,東京大学駒場IIキャンパス (ポスター発表) ,(2023.12.18)
  1. ○楯山裕太,伊藤弘明,好村滋行(4-1),北畑裕之(1-60), "非相反Swift-Hohenberg方程式の時空間パターンの分岐構造解析", 日本物理学会2024年春季大会, オンライン(口頭発表),(2024.3.18)
  1. ○Schnyder, S. K. (1-30), Molina, J. J. (1-91), 山本量一(1-1) & Turner, M. S. (2-1), Self-organised collective social distancing in epidemics, 8th Regional Conference of the “Grant-in-Aid for Scientific Research on Innovative Areas” Research Project “Information physics of living matters”, 東京大学 (2024.3.5.).
  1. ○楯山裕太(1-116),, 伊藤弘明(1-61), 好村滋行(4-1), 北畑裕之(1-60), 「1次元非相反Swift-Hohenbergモデルにおける時空間パターンの分岐解析」, 日本物理学会第79回年次大会,北海道大学札幌キャンパス,口頭, 2024.9.16
  1. ○楯山裕太(1-116),, 伊藤弘明(1-61), 好村滋行(4-1), 北畑裕之(1-60), 「1次元非相反Swift-Hohenbergモデルにおけるパターンダイナミクスとその分岐解析」, 第12回ソフトマター研究会, 大阪大学豊中キャンパス, ポスター,  2024.12.17
  1. ○楯山裕太(1-116),, 伊藤弘明(1-61), 好村滋行(4-1), 北畑裕之(1-60), 「非相反モデルにおける保存・非保存系の定常解構造の対応」, 日本物理学会2025年春季大会, オンライン,ポスター,2025.3.20
  1. ○Hidemasa Ishii(1-82), Robert Großmann, Carsten Beta(3-4), "Reducing the complexity of phase-field models for cell motility", 第2回生物普遍性ワークショップ,東京大学生産技術研究所(ポスター発表),(2025.3.26)
  1. ◯安田健人(1-20), 石本健太(1-18), 好村滋行(4-1)、「Onsager-Machlup変分原理の統計形式」、日本物理学会第79回年次大会,札幌、17aE302-2、2024年9月。
  1. ◯安田健人(1-20), 石本健太(1-18), 好村滋行(4-1)、「Onsager-Machlup 積分の変分原理:情報スイマーへの応用」、新学術領域研究「ジオラマ環境で覚醒する原生知能を定式化する細胞行動力学」第6回領域全体会議、P24、札幌、2024年9月
  1. ◯安田健人(1-20), 石本健太(1-18), 好村滋行(4-1)、「Onsager-Machlup変分原理の統計形式」、2024年度研究集会「生物流体力学における運動・行動の機構」,京都、2024年11月。
  1. ◯安田健人(1-20)、石本健太(1-18), 好村滋行(4-1)、「Onsager-Machlup変分原理の統計形式」、第12回ソフトマター研究会、大阪、2024年12月。
  1. ○多羅間 充輔, H. Löwen(3-6), “走化性自己推進粒子の散乱と捕獲”, 日本物理学会 第 79 回年次大会, 北海道大学. (口頭発表),(2024.9.19)
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