Configuration mixing in low-lying spectra of carbon hypernuclei

Abstract

We perform a coupled-channels study of the low-lying states in 13,15,17,19~~~~~~~~~~~~~~~~~~~~~C with a covariant energy density functional based microscopic particle-core coupling model. The energy differences of 1/2- and 3/2- states in 13 and 15 are predicted to be 0.25 MeV and 0.34 MeV, respectively. We find that configuration mixings in the 1/2- and 3/2- states of 15 are the weakest among those of 13,15,17,19~~~~~~~~~~~~~~~~~~~~~C. It indicates that 15 provides the best candidate among the carbon hypernuclei to study the spin-orbit splitting of p hyperon state.