Strong decays of low-lying D-wave b/b' baryons with QPC model

Abstract

For further decoding the inner structure of the two excited b states observed by LHCb, we perform a systematical study of the strong decays of the low-lying 1D-wave b and b' excitations using the quark pair creation model within the j-j coupling scheme. Combining with the measured masses and decay properties of b(6327)0 and b(6327)0, the two excited states can be explained as 1D λ-mode b states b|JP=32+,2λλ and b|JP=52+,2λλ, respectively. If such a view were correct, b'π and b'*π could be another interesting channels for experimental exploring of the b(6327)0 and b(6327)0, respectively. Those calculations are good consistent with the results within the chiral quark model. In addition, for the other missing 1D-wave b and b' excitations, our predictions indicate that:(i) the two -mode 1D b states are likely to be moderate states with a width of 50 MeV. The JP=3/2+ state dominantly decays into bK and b'π, while the JP=5/2+ state decays primarily through b*K and b'*π. (ii) The λ-mode 1D b' states may be moderate states with a widths of about several to dozens of MeV. Most of the λ-mode 1D b' states mainly decay into the 1P-wave bottomed baryon via the pionic decay processes. Meanwhile, several λ-mode 1D b' states have significant decay rates into B. (iii) While, the -mode 1D b' states are predicted to be very broad states with a width of about several hundreds MeV. It will be a great challenge to explore the -mode 1D b' states in experiments for their broad widths.