Systematic study of exotic 1-+ tetraquark spectroscopy
Abstract
The masses of exotic quantum-number 1-+ compact tetraquark states are calculated in a constituent quark model, where a Cornell-like potential is employed as the central potential, spin-spin and spin-orbit coupling derived from the Breit-Fermi interaction are treated as hyperfine corrections, and model parameters are taken from previous works. The ground state 1-+ P-wave tetraquarks are predicted at 1.9, 4.2, and 6.6~GeV for the light, charmonium-like, and fully-charm sectors, respectively. The decay width ratios of 1-+ tetraquark states are calculated for two-body strong decay channels within the rearrangement mechanism, including ω h1 and η f1 for isospin I=0 light tetraquarks, h1 and π f1 for isospin I=1 light tetraquarks, π/η+c1 and /ω + hc for charmonium-like tetraquarks, and ηc c1 and J/ hc for fully-charm tetraquarks. The theoretical results are compared with the observed exotic 1-+ states, and promising search channels for 1-+ tetraquarks are discussed. The work suggests that η1(1855) is unlikely to be a compact tetraquark state.
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