X. H. Zhong, G. X. Peng, L. Li, P. Z. Ning
Published 2005-08-17, updated 2006-10-13Version 2
The static properties of some possible light and moderate kaonic nuclei, from C to Ti, are studied in the relativistic mean-field theory. The 1s and 1p state binding energies of $K^-$ are in the range of $73\sim 96$ MeV and $22\sim 63$ MeV, respectively. The binding energies of 1p states increase monotonically with the nucleon number A. The upper limit of the widths are about $42\pm 14$ MeV for the 1s states, and about $71\pm 10$ MeV for the 1p states. The lower limit of the widths are about $12\pm 4$ MeV for the 1s states, and $21\pm 3$ MeV for the 1p states. If $V_{0}\leq 30$ MeV, the discrete $K^-$ bound states should be identified in experiment. The shrinkage effect is found in the possible kaonic nuclei. The interior nuclear density increases obviously, the densest center density is about $2.1\rho_{0}$.
Comments: 9 pages, 2 tables and 1 figure, widths are considered, changes a lot
Journal: Phys. Rev. C 74, 034321 (2006)
Carbon Isotopes Near Drip Lines in the Relativistic Mean-Field Theory
Kaonic nuclei excited by the $(K^-,N)$ reaction
Lambda(1405)-induced non-mesonic decay in kaonic nuclei
