Discovery potential of stable and near-threshold doubly heavy tetraquarks at the LHC

Abstract

We study the LHC discovery potential of the double-bottom tetraquarks bb u d, bb u s and bb d s, the lightest of which having JP=1+, called T\bb\[ u d], T\bb\[ u s] and T\bb\[ d s], are expected to be stable against strong decays. Employing the Monte Carlo generators MadGraph5\aMC@NLO and Pythia6, we simulate the process pp b b b b and calculate the b b-diquark jet configurations, specified by the invariant mass interval mbb < MT\bb\[ q q'] + M. Estimates of M from the measured product σ(pp Bc+ +X) B(Bc+ J/π+) are presented and used to to get the b b-diquark jet cross sections in double-bottom hadrons σ(pp H\bb\ +X), where H\bb\ represent tetraquarks and baryons. This is combined with the LHCb data on the fragmentation b b and b B to obtain σ(pp T\bb\[ u d] +X) = (2.4 +0.9-0.6)\ nb , and about a half of this for the T\bb\[us] and T\bb\[ d s]. We also present estimates of the production cross sections for the mixed bottom-charm tetraquarks, bc u d, bc u s and bc d s, obtaining σ(pp T[bc][ u d] +X)= (48+19-12)\ nb, and the related ones having T[bc][ u s] and T[bc][ d s]. They have excellent discovery potential at the LHC, as their branching ratios in various charge combinations of BD(s) (γ) are anticipated to be large.