The excited bottom-charmed mesons in a nonrelativistic quark model

Abstract

Using the newly measured masses of Bc(1S) and Bc(2S) from the CMS Collaboration and the 1S hyperfine splitting determined from the lattice QCD as constrains, we calculate the Bc mass spectrum up to the 6S multiplet with a nonrelativistic linear potential model. Furthermore, using the wave functions from this model we calculate the radiative transitions between the Bc states within a constituent quark model. For the higher mass Bc states lying above DB threshold, we also evaluate the Okubo-Zweig-Iizuka (OZI) allowed two-body strong decays with the 3P0 model. Our study indicates that besides there are large potentials for the observations of the low-lying Bc states below the DB threshold via their radiative transitions, some higher mass Bc states, such as Bc(23P2), Bc(23D1), Bc(33D1), Bc(43P0), and the 1F-wave Bc states, might be first observed in their dominant strong decay channels DB, DB* or D*B at the LHC for their relatively narrow widths.