Radially Excited Bottom Mesons in Heavy Quark Effective Theory

Abstract

In this paper, Heavy Quark Effective Theory (HQET) is employed to investigate experimentally missing radially excited bottom-meson states. It is an extension of our previous work, in which we had applied HQET for the calculation of charm mesons. By incorporating both theoretical insights and available experimental data on charmed mesons with flavor-symmetry parameters, we computed masses of radially excited bottom-meson states with their strange partners. In addition, decay widths are calculated in the form of hadronic coupling constants gHH, gSH, gTH. By comparing our decay width predictions with available total decay widths, we calculated upper bounds on the corresponding couplings. Regge trajectories are also constructed for our predicted data in planes (J, M2 ) and (nr, M2 ), and estimate higher masses (n = 4) by fixing Regge slopes and intercepts. Future experimental findings can validate the results obtained in this work.