QCD sum rule predictions on gluonic tetraquark states with JPC=0+-,0-- and 1

Abstract

In this work, we present a systematic calculation of the mass spectrum for tetraquark hybrid states, focusing on the 8[cc] 8[G] 8[cc] color configuration, within the framework of QCD sum rules. As an extension of our previous work on 0++ and 0-+ states, we now construct 18 distinct interpolating currents with JPC = 0+-, 0--, and 1. Using operator product expansion (OPE) techniques and including nonperturbative contributions up to dimension six, we obtain key results: for the 0+-, 1--, and 1-+ states, the predicted masses lie in the range of 7.2-7.3 GeV, while the 1+- and 1++ states have slightly lower masses, between 6.9 and 7.1 GeV. These predictions provide strong support for the possible existence of an 8[cc] 8[G] 8[cc] component within the di-J/ structure reported by LHCb. Moreover, our analogous calculations for tetrabottom hybrid states yield mass ranges of 19.4-19.5 GeV (for 0+-, 1--, and 1-+) and 19.2-19.3 GeV (for 1+- and 1++), offering crucial references for future searches.

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