Members
Cho Win AungPost Doctoral Researcher
Chiral Materials by chiral magnetic and vortical effects in High Energy and Condensed Matter Physics
chowin_at_hiroshima-u.ac.jp
Bio
Primary advisor: Prof. Chiho Nonaka
Co-mentors: Prof. Kenta Kuroda, Prof. Katsura Inoue
Cho Win Aung, a former assistant lecturer at Mandalar University, Mandalay, Myanmar, earned his Ph.D. under the Doctoral Fellowship in India for ASEAN (DIA) at the Indian Institute of Technology, Bhilai. His research interests include non-relativistic and relativistic nuclear physics, particularly nuclear collision theory and quantum field theory. He previously worked on proton–oxygen nucleus scattering using multiple-scattering theory and on hypernuclear bound systems at Mandalay University. During his Ph.D., he studied transport coefficients in graphene and related systems, both with and without magnetic fields, within condensed matter physics. In addition, he has explored high-energy physics, focusing on quark–gluon plasma under magnetic fields and vorticity. He is currently a postdoctoral researcher at WPI-SKCM², Hiroshima University, Japan, working on chiral materials and chiral magnetic and vortical effects in both high-energy and condensed matter physics.
Co-mentors: Prof. Kenta Kuroda, Prof. Katsura Inoue
Cho Win Aung, a former assistant lecturer at Mandalar University, Mandalay, Myanmar, earned his Ph.D. under the Doctoral Fellowship in India for ASEAN (DIA) at the Indian Institute of Technology, Bhilai. His research interests include non-relativistic and relativistic nuclear physics, particularly nuclear collision theory and quantum field theory. He previously worked on proton–oxygen nucleus scattering using multiple-scattering theory and on hypernuclear bound systems at Mandalay University. During his Ph.D., he studied transport coefficients in graphene and related systems, both with and without magnetic fields, within condensed matter physics. In addition, he has explored high-energy physics, focusing on quark–gluon plasma under magnetic fields and vorticity. He is currently a postdoctoral researcher at WPI-SKCM², Hiroshima University, Japan, working on chiral materials and chiral magnetic and vortical effects in both high-energy and condensed matter physics.