The $B^{(*)}\bar{K}^{(*)}$-coupled-channel system in the hidden-gauge approach
Abstract: In this work we provide predictions for bottom-strange molecular states within the Hidden Gauge Formalism. We study the coupled-channel scattering of $B{()}\bar{K}{()}$ states and, by fixing only one free parameter to obtain the mass of a new excited $B_s0$ state seen by the LHCb, we predict the pole parameters of six states in this sector. Concretely, we get that the masses of the flavor partners of the $D_{s0}(2317)$ and $D_{s1}(2460)$ states in the bottom sector are $5760$ and $5802$ MeV for the $B\bar{K}$ ($JP=0+$) and $B{*}\bar{K}$ ($1+$) states, respectively. Moreover, the recently seen states by the LHCb with masses around $6100$ and $6160$ MeV can be interpreted as $B\bar{K}*$ and $B\bar{K}^$ molecular states, according to reasonable values of the pole parameters and the splitting between these two states obtained in our calculation.
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