Hunting for B B molecular state Xb0 via radiative transition of (10753)

Abstract

We investigate the radiative decay (10753) γ Xb0 within the framework of nonrelativistic effective field theory (NREFT). The (10753) is treated as an S-D mixed state of the (4S) and , while the Xb0 is interpreted as a weakly bound BB molecule with JPC=0++. The decay process was assumed to occur via the intermediate meson loops involving the S-wave B(*) and P-wave B1() mesons. Our calculated results indicate that the decay (10753) γ Xb0 is dominated by the B1() meson loops. The partial decay width is predicted to be 0.2-1.5~keV for a binding energy range of εX=0-10~MeV, corresponding to a branching fraction of 10-6-10-5. The decay width is found to be insensitive to the full width of the B1 meson. Our study suggests that the radiative decay of the (10753) is a promising channel to search for the Xb0 state, which is crucial for testing heavy-quark symmetries and understanding the exotic hadron spectrum in the bottom sector.