Takeaki Araki

Kyoto University

H-index: 25

Asia-Japan

About Takeaki Araki

Takeaki Araki, With an exceptional h-index of 25 and a recent h-index of 13 (since 2020), a distinguished researcher at Kyoto University, specializes in the field of Soft matter physics, statistical physics.

His recent articles reflect a diverse array of research interests and contributions to the field:

Optical device and refresh driving method for optical device

Relaxation to steady states of a binary liquid mixture around an optically heated colloid

Contribution of internal degree of freedom of soft molecules to Soret effect

Slippery interface-mechanism and physical properties

Correction: Transient coarsening and the motility of optically heated Janus colloids in a binary liquid mixture

Transient coarsening and the motility of optically heated Janus colloids in a binary liquid mixture

Dynamics control of an in-plane-switching liquid crystal cell using heterogeneous substrates

Takeaki Araki Information

University	Kyoto University
Position	Department of Physics
Citations(all)	2578
Citations(since 2020)	686
Cited By	2252
hIndex(all)	25
hIndex(since 2020)	13
i10Index(all)	36
i10Index(since 2020)	21
Email	Access Email
University Profile Page	Kyoto University
Google Scholar	View Google Scholar Profile

Takeaki Araki Skills & Research Interests

Soft matter physics

statistical physics

Top articles of Takeaki Araki

Title	Journal	Author(s)	Publication Date
Optical device and refresh driving method for optical device			2022/3/15
Relaxation to steady states of a binary liquid mixture around an optically heated colloid	Physical Review E	Takeaki Araki Juan Ruben Gomez-Solano Anna Maciołek	2022/1/24
Contribution of internal degree of freedom of soft molecules to Soret effect	Physical Review E	Takeaki Araki Natsumi Chikakiyo	2021/4/29
Slippery interface-mechanism and physical properties	Proceedings of the International Display Workshops	Jun Yamamoto Hirotsugu Kikuchi Takeaki Araki Kiyoshi Minoura	2021/12/9
Correction: Transient coarsening and the motility of optically heated Janus colloids in a binary liquid mixture	Soft Matter	Juan Ruben Gomez-Solano Sutapa Roy Takeaki Araki S Dietrich Anna Maciołek	2020
Transient coarsening and the motility of optically heated Janus colloids in a binary liquid mixture	Soft Matter	Juan Ruben Gomez-Solano Sutapa Roy Takeaki Araki S Dietrich Anna Maciolek	2020/6
Dynamics control of an in-plane-switching liquid crystal cell using heterogeneous substrates	Soft Matter	Kuang-Wu Lee Takeaki Araki Jun Yamamoto	2020