Keisuke Fujii
Name: Fujii, Keisuke (藤井 啓資)
Affiliation: Assistant Professor, Yusuke Nishida group,
Department of Physics, Institute of Science Tokyo
Affiliation: Assistant Professor, Yusuke Nishida group,
Department of Physics, Institute of Science Tokyo
E-mail: fujii[at]phys.sci.isct.ac.jp
E-mail: fujii[at]phys.sci.isct.ac.jp
I am deeply intrigued by the intricacies of many-body physics and the fascinating phenomena it exhibits. My work focuses on developing novel analytical approaches for understanding non-equilibrium dynamics, such as transport phenomena, in strongly correlated quantum systems.
I am deeply intrigued by the intricacies of many-body physics and the fascinating phenomena it exhibits. My work focuses on developing novel analytical approaches for understanding non-equilibrium dynamics, such as transport phenomena, in strongly correlated quantum systems.
My research primarily centers on ultracold atoms, which provide an incredibly versatile platform with high experimental controllability, enabling us to explore fundamental concepts in many-body physics. I continually work to unravel the mysteries of these systems and understand their behavior under various experimental conditions. Furthermore, I am actively exploring the application of insights from ultracold atoms to other fields, thereby enriching our understanding of these fascinating fields.
My research primarily centers on ultracold atoms, which provide an incredibly versatile platform with high experimental controllability, enabling us to explore fundamental concepts in many-body physics. I continually work to unravel the mysteries of these systems and understand their behavior under various experimental conditions. Furthermore, I am actively exploring the application of insights from ultracold atoms to other fields, thereby enriching our understanding of these fascinating fields.
I use advanced analytical techniques, primarily those based on field-theoretical methods, to investigate the intricate interplay between particles in strongly correlated quantum systems. By combining theoretical models with experimental results, I aim to shed new light on the behavior of these systems and uncover novel phenomena previously unseen.
I use advanced analytical techniques, primarily those based on field-theoretical methods, to investigate the intricate interplay between particles in strongly correlated quantum systems. By combining theoretical models with experimental results, I aim to shed new light on the behavior of these systems and uncover novel phenomena previously unseen.
Ultimately, my goal is to contribute to the expansion of our knowledge of many-body physics, revealing the incredible phenomena that lie within these systems by using ultracold atoms as a highly controllable experimental platform.
Ultimately, my goal is to contribute to the expansion of our knowledge of many-body physics, revealing the incredible phenomena that lie within these systems by using ultracold atoms as a highly controllable experimental platform.
Last update:
1 Oct., 2024