Doubly heavy tetraquarks: heavy quark bindings and chromomagnetically mixings

Abstract

We introduce an enhanced binding energy BQQ between heavy-heavy quarks QQ and a flux-tube correction into the chromomagnetic interaction model to study nonstrange doubly-heavy tetraquarks TQQ (Q=c,b). A simple relation in terms of baryon masses is proposed to estimate the binding energies BQQ and thereby map the flux-tube corrections in doubly-heavy tetraquarks Tcc, Tbb and Tbc. Our computation via diagonalization of chromomagnetic interaction predicts the doubly charmed tetraquark Tcc (in color rep. 3c 3c) and Tcc (in 6c 6c) with IJP=01+ to have masses of 3879.2 MeV and 4287.6 MeV, respectively, with the former being in consistent with the measured mass 3874.7 0.05 MeV of the doubly charmed tetraquark Tcc(1+)=ccud discovered by LHCb. Further mass predictions are given of the doubly bottom tetraquarks Tbb and the bottom-charmed tetraquarks Tbc with JP=0+,1+,2+ and I=0,1. A chromomagnetical mixing between the color configurations 3c 3c and 6c 6c is noted for the bottom-charmed states Tbc with IJP=01+ and IJP=1(0+,1+).