Properties of H particle-admixed compact star

Abstract

We explore the potential manifestation of a hexaquark, the H particle, as a constituent within neutron stars. The H particle, characterized by a quark composition of uuddss, is constructed using the framework of Chromomagnetic Interaction (CMI). Specifically, we contemplate the flavor-singlet state H with JP=0+. Our computations indicate that the three-flavor hexaquark state, the H particle, possesses a lower mass of 2212.7~MeV in comparison to the d*(2380), implying greater stability than the two-flavor d*(2380). The analysis involving the H particle is carried out using the relativistic mean-field (RMF) model. We investigate the influence of H particle couplings, a key factor in determining the system stability, and focus on the potential existence of H particle within neutron stars. We find that H particle could potentially endure as a stable constituent within neutron stars, and lead to a reduction of the maximum mass.