QUANTUM PHYSICAL PROPERTIES
SHINJI MIWA LAB.
INTRODUCTION OF LABORATORY
Fabrication of new materials is one of the most interesting points in physics research. We fabricate high-quality and novel multilayer consisting of metals, dielectrics, and organic molecules by using thin-film deposition technique of semiconductor engineering. Specifically, we focus on properties of spin, which corresponds to angular momentum of electron rotation and only appears in nano-scale system. We fabricate quantum spintronics devices using metallic multilayer, organic ultrathin film, and topological quantum materials. Our purpose is to find a new physical properties and to develop it for electronic device applications.
特徴的なナノ構造を有する新物質・材料薄膜の例。
次世代不揮発性メモリの駆動技術として重要な電圧磁気効果の原理。
MESSAGE
FEEL IT INTERESTING, THEN WE CAN FIND NOVEL THINGS.
In graduate schools, we should do “world’s first” thing which is not written in our textbook used in undergraduate school. When I was a graduate school students, I found many things with my research theme for spin current injection into novel materials. While the spintronics changes as the time goes, I am still in the research field because it is quite interesting. When we meets new phenomena, everything is confused. However, it important to transfer the i nformation to others. We should use the word which can be understood by other people. Without doing this, our findings cannot be a true one. For the research, it is important to do our best for everything. Once we learn how to obtain knowledge and how to use this, we can use this ability forever in our future life. Every time, my former teacher tries to make people around him happy. Reflecting this mind, I would like to make good environment for my graduate students and staff members.
keyword
Spintronics / Spin electronics / Electric field-induced magnetic anisotropy modulation / Interfacial magnetic anisotropy / Magnetic tunnel junction / Phthalocyanine
PROFILE : Associate Professor Shinji Miwa
2005 B.S. from Osaka University
2007 M.S. from Osaka University
2007 Toyota Motor Corporation
2011 Assistant Professor, Graduate School of Engineering Science, Osaka University
2013 Ph.D from Osaka University
2016 Associate Professor, Graduate School of Engineering Science, Osaka University
2018 Associate Professor, The Institute for Solid State Physics, The University of Tokyo
STUDENT VOICE : RYOYA ANDO
Assoc. Prof. Miwa is at the forefront in the research field of spintronics. He gives precise comments to students. His comment is always for the growth of students, and our research life is meaningful. We are doing our research at our own pace and our own pace because we have many state-of-art facilities for spintronics research. We can enjoy the world of condensed matter physics.
SOLID STATE PHYSICS AND CHEMISTRY
''Things that seem interesting'' A simple feeling will lead to new discoveries.
Shinji Miwa Lab.,
Department Of Advanced Materials Science,
Graduate School of Frontier Sciences,
The University of Tokyo
Kashiwanoha 5-1-5,
Kashiwa,Chiba 277-8561, Japan
+81-4-7136-3300
miwa@issp.u-tokyo.ac.jp
The Goal of Applied Physics
The goal of Applied Physics is to develop a stage = “new material” that can manipulate undeveloped degrees of freedom, to explore unknown phenomena created from that stage and to bring out excellent functions, and to bring out its excellent functions. The purpose is to contribute to the development of human society by elucidating the mechanisms and developing application fields for these phenomena and functions.
AMS (Advanced Materials Science)
Department Office
AMS (Advanced Materials Science),
Graduate School of Frontier Sciences,
The University of Tokyo
Kashiwanoha 5-1-5, Kashiwa, Chiba 277-8561, Japan
Email : ams-office(at)ams.k.u-tokyo.ac.jp
Please change (at) to @.