Welcome
“Spin” is the origin of magnetism in matter, which is described by quantum mechanics. We are working on…
(1) Development of advanced measurement techniques based on the principle of magnetic (electron or nuclear spin) resonance at cryogenic temperatures and under high magnetic fields, using electromagnetic wave technology up to the far-infrared range.
(2) Basic and applied research in condensed matter physics, especially in the field of magnetism (quantum spin systems, quantum computing related materials, spintronic devices, etc.).
(3) Materials processing using high-power electromagnetic wave sources such as gyrotrons, and heating and decomposition technologies that contribute to carbon neutrality.
For more details, please click here.
Member
Professor FUJII Yutaka
- Research Area
Condensed Matter Physics
Magnetic Resonance - Research Topics
Research on magnetism by magnetic resonance method at cryogenic temperatures and high magnetic fields
Research and development of measurement techniques using magnetic resonance
Magnetism in frustrated systems and low-dimensional lattice spin systems
Senior Assistant Professor
ISHIKAWA Yuya
- Research Area
Ultralow Temperature Condensed Matter Physics.
Magnetic Resonance - Research Topics
Magnetic resonance studies at ultra-low temperatures and high magnetic fields using magnetic resonance methods
Magnetism in frustrated systems and low-dimensional lattice spin systems
Development of measurement techniques using submillimeter-wave light sources
Specially Appointed Assistant Prof.
NAKAGAWA Kohei
- Research Area
Superconductivity, Inorganic synthesis, Solid state chemistry, Solid state physics, Microwave
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