About Us
We are interested in modern problems of solid state theory and computational materials science. We focus on connecting the microscopic structure of materials to experimental measurements. The objective is to understand complex properties like magnetism and superconductivity and to discover and design new materials. Our method development aims at more precise and realistic description of materials and at making more physical quantities accessible by increasing computational efficiency.
Research Highlights
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May 18, 2021
Magnetization process of atacamite: a case of weakly coupled S=1/2 sawtooth chains
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May 27, 2021
DCore: Integrated DMFT software for correlated electrons
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September 09, 2021
Field-tunable toroidal moment in a chiral-lattice magnet
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September 22, 2021
Magnetic field induced quantum spin liquid in the two coupled trillium lattices of K2Ni2(SO4)3
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January 20, 2022
Phase diagram of a distorted kagome antiferromagnet and application to Y-kapellasite
What's New
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- March 25, 2024
- Graduation ceremony was held.
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- March 24, 2023
- Graduation ceremony was held
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- March 25, 2022
- Graduation ceremony was held