Magnetic Dipole Transitions of Bc and Bc* mesons in the Relativistic Independent Quark Model

Abstract

We study M1-transitions involving mesons: Bc(1s), Bc*(1s), Bc(2s), Bc*(2s), Bc(3s) and Bc*(3s) in the relativistic independent quark (RIQ) model based on a flavor independent average potential in the scalar-vector harmonic form. The transition form factor for Bc* Bcγ is found to have analytical continuation from spacelike to physical timelike region. Our predicted coupling constant gBc* Bc = 0.34 GeV-1 and decay width (Bc* Bcγ) = 23 eV agree with other model predictions. In view of possible observation of Bc and Bc* s-wave states at LHC and Z-factory and potential use of theoretical estimate on M1-transitions, we investigate the allowed as well as hindered transitions of orbitally excited Bc-meson states and predict their decay widths in overall agreement with other model predictions. We consider the typical case of Bc*(1s) Bc(1s)γ, where our predicted decay width which is found quite sensitive to the mass difference between Bc* and Bc mesons may help in determining the mass of Bc* experimentally.