publications
see also Google Scholar, arXiv, ORCiD
Research articles (Active Matter, Biological Physics, etc.)
・Review paper
Daiki Nishiguchi
"Deciphering long-range order in active matter: Insights from swimming bacteria in quasi-2D and electrokinetic Janus particles",
accepted to Journal of Physical Society of Japan (2023), [arXiv:2306.17689]
・Original papers
Sora Shiratani, Kazumasa A. Takeuchi, and Daiki Nishiguchi
"Route to turbulence via oscillatory states in polar active fluid under confinement",
under review, [arXiv:2304.03306]Yuki Takaha and Daiki Nishiguchi,
"Quasi-two-dimensional bacterial swimming around pillars: enhanced trapping efficiency and curvature dependence",
under review, [arXiv:2203.16017]Junichiro Iwasawa, Daiki Nishiguchi, and Masaki Sano,
"Algebraic correlations and anomalous fluctuations in ordered flocks of Janus particles fueled by an AC electric field",
Phys. Rev. Res. 3, 043104 (2021). [arXiv:2011.14548]Alexis Poncet, Olivier Bénichou, Vincent Démery, and Daiki Nishiguchi,
"Pair correlation of dilute Active Brownian Particles: from low activity dipolar correction to high activity algebraic depletion wings",
Phys. Rev. E 103, 012605 (2021). [arXiv: 2006.08202]Henning Reinken, Daiki Nishiguchi, Sebastian Heidenreich, Andrey Sokolov, Markus Bär, Sabine H.L. Klapp, and Igor S. Aranson,
"Organizing bacterial vortex lattices by periodic obstacle arrays",
Communications Physics 3, 76 (2020).Paul Kennouche, Arthur Charles-Orszag, Daiki Nishiguchi, Sylvie Goussard, Anne-Flore Imhaus, Mathieu Dupré, Julia Chmot-Rooke, and Guillaume Duménil,
"Deep mutational scanning of the Neisseria meningitidis major pilin reveals the importance of pilus tip-mediated adhesion",
EMBO Journal, e102145 (2019).Daiki Nishiguchi, Igor S. Aranson, Alexey Snezhko, and Andrey Sokolov,
"Engineering bacterial vortex lattice via direct laser lithography"
Nature Communications 9, 4486 (2018).Daiki Nishiguchi, Junichiro Iwasawa, Hong-Ren Jiang, Masaki Sano,
"Flagellar Dynamics of Chains of Active Janus Particles Fueled by an AC electric field",
New Journal of Physics 20, 015002 (2018). [arXiv].Daiki Nishiguchi, Ken H. Nagai, Hugues Chaté, Masaki Sano,
"Long-range nematic order and anomalous fluctuations in suspensions of swimming filamentous bacteria",
Phys. Rev. E 95, 020601(R) (2017). [arXiv]Daiki Nishiguchi and Masaki Sano,
"Mesoscopic Turbulence and Local Order in Janus Particles Self-Propelling under an AC Electric Field",
Phys. Rev. E 92, 052309 (2015). [arXiv]
Other articles (News, Comments, Reviews, etc.)
Daiki Nishiguchi
"Physics of Bait Balls: How Do Schooling Fish Form Rotating Clusters?"
JPSJ News Comments 19, 13 (2022). [LINK]
Books
Daiki Nishiguchi
"Order and Fluctuations in Collective Dynamics of Swimming Bacteria: Experimental Exploration of Active Matter Physics"
the Springer Theses book series, Springer (Singapore), Feb. 2020.
[LINK: Springer Link] [Amazon.co.jp] [Amazon.com]
Science Communication and others
1 introductory article on active matter theory and experiments in a Japanese commercial scientific magazine.
5 peer-reviewed Japanese papers:
3 on science communication
1 on International Physics Olympiad
1 on organizing a domestic summer school on condensed matter physics
(See the detail here, but sorry, only in Japanese.)
Theses
Daiki Nishiguchi
"Order and fluctuations in collective dynamics of swimming bacteria"
PhD Thesis, Dept. of Physics, Grad. Sch. of Science, The Univ. of Tokyo, Japan (2017).
[Link to UTokyo Repository]Daiki Nishiguchi,
"Collective Motion of Self-Propelled Asymmetric Colloidal Particles",
Master Thesis, Dept. of Physics, Grad. Sch. of Science, The Univ. of Tokyo, Japan (2014).