Spin Polarized Phases in Quark Matter: Interplay between Axial-vector and Tensor Mean Fields
ORAL
Abstract
The spontaneous spin polarization of strongly interacting matter due to axial-vector and tensor
type interactions is studied at zero temperature and high baryon-number densities. We start with the
mean- field Lagrangian for the axial-vector and tensor interaction channels, and find in the chiral
limit that the spin polarization due to the tensor mean field takes place first as the density
increases for sufficiently strong coupling constants, and then that due to the axial-vector mean field
emerges in the region of nite tensor mean field.
type interactions is studied at zero temperature and high baryon-number densities. We start with the
mean- field Lagrangian for the axial-vector and tensor interaction channels, and find in the chiral
limit that the spin polarization due to the tensor mean field takes place first as the density
increases for sufficiently strong coupling constants, and then that due to the axial-vector mean field
emerges in the region of nite tensor mean field.
*Grants-in-Aid for Scienti c Research from the Ministry of Education, Science and Culture of Japan through Grant No. 16K05360 and No. 17K05445.
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Presenters
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Tomoyuki Maruyama
- Nihon University
- BRS, Nihon University