Six-quark structure of d*(2380) in chiral constituent quark model

Abstract

The structure of d*(2380) is re-studied with the single cluster structure in the chiral SU(3) quark model which has successfully been employed to explain the N-N scattering data and the binding energy of deuteron. The binding behavior of such a six quark system is solved by using a variational method. The trial wave function is chosen to be a combination of a basic spherical symmetric component of [(0s)6]orb in the orbital space with 0ω excitation and an inner structural deformation component of [(0s)5(1s)]orb and [(0s)4(0p)2]orb in the orbital space with 2ω excitation, both of which are in the spatial [6] symmetry. It is shown that the mass of the system is about 2356 MeV, which is qualitative consistent with the result both from the two-cluster configuration calculation and from the data measured by the WASA Collaborations. This result tells us that as long as the medium-range interaction due to the chiral symmetry consideration is properly introduced, the mass of system will be reduced in a rather large extent. It also implies that the observed d* is a six-quark bound state with respect to the threshold, which again supports the conclusion that d* is a hexaquark dominant state.