Mass Spectrum of Heavy Quarkonium Hybrids

Abstract

We have extended the calculation of the correlation functions of heavy quarkonium hybrid operators with various JPC quantum numbers to include QCD condensates up to dimension six. In contrast to previous analyses which were unable to optimize the QCD sum-rules for certain JPC, recent work has shown that inclusion of dimension six condensates stabilizes the hybrid sum-rules and permits reliable mass predictions. In this work we have investigated the effects of the dimension six condensates on the remaining channels. After performing the QCD sum-rule analysis, we update the mass spectra of charmonium and bottomonium hybrids with exotic and non-exotic quantum numbers. We identify that the negative-parity states with JPC=(0, 1, 2)-+, 1-- form the lightest hybrid supermultiplet while the positive-parity states with JPC=(0, 1)+-, (0, 1, 2)++ belong to a heavier hybrid supermultiplet, confirming the supermultiplet structure found in other approaches. The hybrid with JPC=0-- has a much higher mass which may suggest a different excitation of the gluonic field compared to other channels. In agreement with previous results, we find that the JPC=1++ charmonium hybrid is substantially heavier than the X(3872), which seems to preclude a pure charmonium hybrid interpretation for this state.