Welcome
In our everyday materials, electrons play a central role in generating various phenomena. The number of electrons in a solid can reach up to 1024, giving rise to a diverse array of cooperative phenomena that go beyond the imagination based on the behavior of individual electrons. A notable example is the superconducting phenomenon, representing the realization of quantum condensation where the electron ensemble achieves coherence.
In our research laboratory, we engage in theoretical studies utilizing field theories and numerical computation methods to clarify the origins of the intriguing properties exhibited by electron ensembles. Our goal is to explore new principles, phenomena, and functionalities, contributing to a better understanding and unveiling of the mysteries associated with the unique characteristics of electrons.
Keywords:
Strongly correlated electrons
Superconductivity
Relativistic quantum mechanics
Magnetism, orbital and multipole physics
Heavy-electron systems / Kondo effect