B_c^+- decays into tetraquarks

TL;DR

This paper predicts masses and possible detection methods for bdus and cdus tetraquarks, discussing their relation to recent experimental observations and proposing decay channels for future searches.

Contribution

It provides theoretical mass estimates for bdus and cdus tetraquarks within the diquark model and suggests experimental discovery modes, extending previous work on exotic hadrons.

Findings

bdus tetraquark estimated at 5770 MeV, near B Kbar threshold

Predicted neutral partners nearly degenerate in mass

Suggested decay channels for experimental searches

Abstract

The recent observation by the D0 collaboration of a narrow structure X(5568) consisting of four different quark flavors bdus, has not been confirmed by LHCb. More data and dedicated analyses are needed to cover a larger mass range. In the tightly bound diquark model, we estimate the lightest bdus, 0^+ tetraquark at a mass of about 5770 MeV, approximately 200 MeV above the reported X(5568), and just 7 MeV below the B Kbar threshold. The charged tetraquark is accompanied by I=1 and I=0 neutral partners almost degenerate in mass. A bdus, S-wave, 1^+ quartet at 5820 MeV is implied as well. In the charm sector, cdus, 0^+ and 1^+ tetraquarks are predicted at 2365 MeV and 2501 MeV, about 40-50 MeV heavier than D_{s0}(2317) and D_{s1}(2460). bdus tetraquarks can be searched in the hadronic debris of a jet initiated by a b. However, some of them may also be produced in B_c decays. The proposed discovery modes of S-wave tetraquarks are B_c --> X_{b0} + pi with the subsequent decays X_{b0} --> B_s + pi, giving rise to final states such as B_s pi^+ pi^0. We also emphasize the importance of B_c decays as a source of bound hidden charm tetraquarks, such as B_c --> X(3872) + pi.