Charmonia and Bottomonia in asymmetric magnetized hot nuclear matter

Abstract

We investigate the mass-shift of P-wave charmonium (c0, c1) and S and P-wave bottomonium (ηb, , b0 and b1) states in magnetized hot asymmetric nuclear matter using the unification of QCD sum rules (QCDSR) and chiral SU(3) model. Within QCDSR, we use two approaches, i.e., moment sum rule and Borel sum rule. The magnetic field induced scalar gluon condensate αsπ Gaμ Gaμ and the twist-2 gluon operator αsπ Gaμσ Gaσ calculated in chiral SU(3) model are utilised in QCD sum rules to calculate the in-medium mass-shift of above mesons. The attractive mass-shift of these mesons is observed which is more sensitive to magnetic field in high density regime for charmonium, but less for bottomonium. These results may be helpful to understand the decay of higher quarkonium states to the lower quarkonium states in asymmetric heavy ion collision experiments.