M2

Department of Nuclear Engineering and Management, School of Engineering, the University of Tokyo

 

 

 

 

Current Research Theme

First principles simulation of energy transfer from femtosecond laser multipulses to materials

Education

04/2023 – present　Master’s course, Department of Nuclear Engineering and Management, School of Engineering, The University of Tokyo
04/2021 – 03/2023　Department of Systems Innovation, Faculty of Engineering, The University of Tokyo
04/2019 – 03/2021　Natural Sciences I, College of Arts and Sciences, The University of Tokyo

Academic Conferences

Eiyu Gushiken, Mizuki Tani, Hiroki Katow, Kenichi L. Ishikawa “Wavelength dependence of energy transfer from femtosecond laser double pulse to silicon”, The 70th JSAP Spring Meeting 2023, Tokyo, Japan, 03/2023 (Oral)

Thesis

Graduation thesis (Bachelor) “Wavelength dependence of energy transfer from femtosecond laser double pulse to silicon” (Supervisor: Prof. Dr. Kenichi L. Ishikawa)

Message

Light is such a familiar presence to humans that many of us don’t consciously think about it in our daily lives. However, upon reflection, we can realize that it is an incredibly mysterious concept. Our lab is conducting cutting-edge theoretical research on quantum technologies such as lasers and quantum computers. In particular, I’m interested in how strong lasers and matter interact on the time scale of femtoseconds and attoseconds (0.000000000000000001 seconds). There are countless stories in your life although it is just a fleeting moment in the universe. Even if it is a fleeting moment for us, there would be compelling stories between light and matter.