Vector resonance $X_1(2900)$ and its structure
Abstract
The new vector resonance observed recently by LHCb in the invariant mass distribution in the decay is studied to uncover internal structure of this state, and calculate its physical parameters. In the present paper, the resonance is modeled as an exotic vector state, , built of the light diquark and heavy antidiquark . The mass and current coupling of are computed using the QCD two-point sum rule approach by taking into account various vacuum condensates up to dimension . The width of the resonance is saturated by two decay channels and . The strong couplings and corresponding to the vertices and are evaluated in the context of the QCD light-cone sum rule method and technical tools of the soft-meson approximation. Results for the mass of the resonance , and for its full width are smaller than their experimental values reported by the LHCb collaboration. Nevertheless, by taking into account theoretical and experimental errors of investigations, interpretation of the state as the vector tetraquark does not contradict to the LHCb data. We also point out that analysis of the invariant mass distribution in the same decay may reveal doubly charged four-quark structures .
Cite
@article{arxiv.2103.06151,
title = {Vector resonance $X_1(2900)$ and its structure},
author = {S. S. Agaev and K. Azizi and H. Sundu},
journal= {arXiv preprint arXiv:2103.06151},
year = {2021}
}
Comments
8 Pages, 1 Figure and 1 Table