Abstract
Because of the non-perturbative properties of strong interaction, how to
understand the nuclear matter, both theoretically and experimentally, is a
significant and difficult problem. Meanwhile, due to the sign problem, lattice
simulation is not applicable in high density region. Hence, any exploration of the
nuclear matter properties, either at the model level or at the effective theory
level, is valuable. The purpose of this workshop is to exchange information and
discuss the existing results and to strongly contribute to the future of:
Chiral effective theories based on fundamental QCD, Phase structure of hadronic matter,
Strangeness in dense matter, High density EoS relevant to compact stars and
QCD in strong magnetic field, and also properties of exotic hadrons.
Invited speakers:
Hiroaki Abuki (Aichi Univ. of Education/Japan)
Gergely Fejos (Keio Univ.)
Francesco Giacosa (Kielce Univ./Poland)
Philipp Gubler (JAEA/Japan)
Atsushi Hosaka (RCNP, Osaka/Japan)
Mei Huang (IHEP-Beijing/China)
Tetsuo Hyodo (YITP, Kyoto/Japan)
Chang Ho Hyun (Daegu Univ./Korea)
Daisuke Jido (Tokyo Institute of Technology/Japan)
Toru Kojo (Central China Normal Univ./China)
Chang-Hwan Lee (Pusan National Univ./Korea)
Ang Li (Xiamen University/China)
Yu-Xin Liu (Peking Univ./China)
Masayuki Wakayama (RCNP, Osaka/Japan)
Qing Wang (Tsinghua Univ./China)
Yasuhiro Yamaguchi (RIKEN/Japan)
Shigehiro Yasui (Keio Univ./Japan)
Organizers:
Masayasu Harada (Nagoya Univ./Japan)
Yong-Liang Ma (Jilin Univ./China)
Youngman Kim (IBS/Korea)
Sponsorship: Kobayashi-Maskawa Institute for the Origin of Particles and the Universe (KMI) at Nagoya University
Co-host: Center for Theoretical Physics (Jilin Univ.), IBS