Investigating triply heavy tetraquark states through QCD sum rules
Abstract
We apply the method of QCD sum rules to study the \(QQQq\) and \(QQQs\) tetraquark states, where Q=c,b and q=u,d, with the quantum number \(JP = 0+\). We consider the contributions of vacuum condensates up to dimension-9 in the operator product expansion, and use the energy scale formula \(μ = MX2 - (iMc + jMb)2 - kMs\) to determine the optimal energy scales for the QCD spectral densities. Our results indicate that triply charm tetraquark states \(cccq\) and \(cccs\) have masses in the ranges of 5.38-5.84\,GeV and 5.66-6.16\,GeV, respectively. In the bottom sector, triply bottom tetraquark states \(bbbq\) and \(bbbs\) have masses in the ranges of 14.89-15.55\,GeV and 14.95-15.66\,GeV, respectively. This study could help distinguish these states in upcoming high-energy nuclear and particle experiments.
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