Examination of $N^*(1535)$ as a probe to observe the partial restoration of chiral symmetry in nuclear matter
arXiv:1704.03630 · doi:10.1103/PhysRevC.97.045203
Abstract
We investigate modifications of mass and decay width of $N^*(1535)$ in nuclear matter in a chiral symmetric way. The nucleon and $N^*(1535)$ are introduced by a parity doublet model, and nuclear matter is constructed by one-loop diagrams of the nucleon and $N^*(1535)$. The decay width of $N^*(1535)$ is studied respecting chiral symmetry. Our calculations show that the partial width of $Î_{N^*\to NÏ}$ is slightly broadened by a collisional broadening, and that of $Î_{N^*\to Nη}$ is drastically suppressed at density. As a result, the total decay width $Î_{\rm tot}$ gets small at density. These modifications, especially the drastic narrowing of partial width of $Î_{N^*\to Nη}$, together with the dropping of mass of $N^*(1535)$ provide experiments for observing the partial restoration of chiral symmetry in nuclear matter by means of $N^*(1535)$ resonance with useful information.
16 pages, 13 figures