Using a nonrelativistic constituent quark model in which the degrees of freedom are quark-antiquark and meson-meson components, we have recently shown that the D(∗)K thresholds play an important role in lowering the mass of the physical Ds0∗(2317) and Ds1(2460) states. This observation is also supported by other theoretical approaches such as lattice-regularised QCD or chiral unitary theory in coupled channels. Herein, we extend our computation to the lowest P-wave Bs mesons, taking into account the corresponding JP=0+, 1+ and 2+ bottom-strange states predicted by the naive quark model and the BK and B∗K thresholds. We assume that mixing with Bs(∗)η and isospin-violating decays to Bs(∗)π are negligible. This computation is important because there is no experimental data in the bsˉ sector for the equivalent jqP=1/2+ (Ds0∗(2317), Ds1(2460)) heavy-quark multiplet and, as it has been seen in the csˉ sector, the naive theoretical result can be wrong by more than 100MeV. Our calculation allows to introduce the coupling with the D-wave B∗K channel and to compute the probabilities associated with the different Fock components of the physical state.
@article{arxiv.1612.04826,
title = {Threshold effects in P-wave bottom-strange mesons},
author = {Pablo G. Ortega and Jorge Segovia and David R. Entem and Francisco Fernández},
journal= {arXiv preprint arXiv:1612.04826},
year = {2017}
}
Comments
7 pages and 5 figures. arXiv admin note: substantial text overlap with arXiv:1603.07000