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Introduction of 7 courses and 36 laboratories

Six courses: Condensed Matter/Optical Science Course, New Materials/Interface Science Course, Materials/Functional Design Course, Multidimensional Measurement Science Course, Materials Science Cooperation Course (Condensed Matter Research Institute) and Core Courses and Collaborations

APPLIED PHYSICS

Hiroshi Okamoto Lab.

Quantum Condensed-Matter Science

Arima & Tokunaga Lab.

Correlated-Matter Physics

Shibauchi & Hashimoto Lab.

Quantum Phases of Matter

Kimura Lab.

Functional Materials Physics

Sugimoto Lab.

Single Atom Molecule Science

Yoshimi Lab.

Condensed Matter Physics

Yoneda Lab.

Condensed Matter Physics

NEW MATERIALS AND INTERFACES

Takeya & Tamai Lab.

Organic Electronics Science

Imajo Lab.

Organic Electronics Science

Ariga Lab.

Organic Electronics Science

Uchida&Nakanishi Lab.

Energy-conversion Quantum Science

Suzuki Lab.

Molecular Ionics

MATERIALS DESIGN AND PROCESSING

Ito Lab.

Process Science for Advanced Materials

Mitarai Lab.

High-Tempreture materials design

Kita Lab.

Nano-Space Function Design

IMAGING SCIENCE

Sasaki Lab.

Multiple-Image Science

SOLID STATE PHYSICS AND CHEMISTRY

Mori Lab.

Condensed Matter Science

Yamashita Lab.

Condensed Matter Science

Takagi Lab.

Condensed Matter Science

Hiroi Lab.

Materials Design

Yoshihiko Okamoto Lab.

Materials Design

Yamaura Lab.

Materials Design

Nakatsuji Lab.

Quantum Materials

Miwa Lab.

Quantum Materials

Keiichi Inoue Lab.

Functional Materials

Otani Lab.

Nanoscale Science

Yoshinobu Lab.

Functional Materials

Mikk Lippmaa Lab.

Nanoscale Science

Matsuda Lab.

International MegaGauss Science

Miyata Lab.

Ultrahigh magnetic field science

Okazaki Lab.

Laser and Synchrotron

Harada Lab.

Synchrotron Radiation Science

Masuda Lab.

Neutron Science

Mayumi Lab.

Neutron Science

Information Technology Center

Nagai Lab

Interdisciplinary Information Science

Synchrotron
Radiation Research

Ichiro Inoue Lab.

Synchrotron Radiation Science

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 @.

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