Introduction

Muneto Nitta is a researcher of theoretical physics with a focus on aspects of topology and symmetries. His work spans diverse areas, including theoretical high energy physics, nuclear physics, cosmology and condensed matter physics. He also explores supersymmetric field theory, beyond the standard model physics and quantum chromodynamics(QCD) in high energy physics, neutron superfluidity, high-density quark matter and neutron stars in nuclear physics, and chiral magnets, untlacold atomic gases, superconductors and superfluids in condensed matter physics. He contributes significantly to the understanding of topological aspects in quantum field theory and condensed matter.

■Topology and Symmetries in Quantum Field Theory
・Research Objective: To derive an ADHM-like quotient construction of the moduli space of BPS vortices and lumps in flag manifold sigma models and quiver gauge theories.
- Title: Moduli spaces of instantons in flag manifold sigma models. Vortices in quiver gauge theories, Fujimori Toshiaki, Nitta Muneto, Ohashi Keisuke （Journal of High Energy Physics） 2024 （ 2 ） Feb. 2024
・Research Objective: To demonstrate the presence of a domain-wall Skyrmion phase in rapidly rotating QCD matter with two flavors using chiral perturbation theory.
- Title: Domain-wall Skyrmion phase in a rapidly rotating QCD matter, Eto Minoru, Nishimura Kentaro, Nitta Muneto （Journal of High Energy Physics） 2024 （ 3 ） Mar. 2024
・Research Objective: To calculate excitations including gapless Nambu-Goldstone modes and excited modes around non-Abelian and Abelian chiral soliton lattices in rotating QCD matter.
- Title: Non-Abelian chiral soliton lattice in rotating QCD matter: Nambu-Goldstone and excited modes, Eto Minoru, Nishimura Kentaro, Nitta Muneto （Journal of High Energy Physics） 2024 （ 3 ） Mar. 2024
■Others
Research Objective: To explore and discuss various topological phenomena in high-density QCD, neutron superfluids, chiral magnets, and other theoretical models.

Areas of Research

・Hadron physics
・Elementary particle theory, field theory, string theory
・Ultracold atomic gases
・Theory of elementary particles, atomic nuclei, cosmic rays, and astrophysics
・Semiconductors, optical properties, atomic physics

Social Contributions

・Enhancement of Quantum Technologies
・Advancements in Materials Science
・Deeper Understanding of Complex Systems