Investigation of the stability for fully-heavy bcbc tetraquark states

Abstract

We study the existence of fully-heavy hidden-flavor bcbc tetraquark states with various JPC=0+, 0--,1, 2++, by using the moment QCD sum rule method augmented by fundamental inequalities. Using the moment sum rule analyses, our calculation shows that the masses for the S-wave positive parity bcbc tetraquark states are about 12.2-12.4 GeV in both [3c]bc[3c]bc and [6c]bc[6c]bc color configuration channels. Except for two 0++ states, such results are below the thresholds Tηcηb/T and TBcBc, implying that these S-wave positive parity bcbc tetraquark states are probably stable against the strong interaction. For the P-wave negative parity bcbc tetraquarks, their masses in the [3c]bc[3c]bc channel are around 12.9-13.2 GeV, while a bit higher in the [6c]bc[6c]bc channel. They can decay into the c c+b b and c b+b c final states via the spontaneous dissociation mechanism, including the J/, ηc, J/ηb, Bc+Bc- channels.