Compactness, mass spectra, and strong stability of singly heavy tetraquarks
Abstract
We propose a Coulomb-like parameterization in terms of bag radius of the short-range chromo-electric interaction between heavy quarks and strange quarks within the framework of the MIT bag model for hadrons including multiquark systems and re-examine mass spectra of doubly and fully heavy baryons self-consistently and variationally. Building upon this, we apply this approach to systematically investigate the mass spectra and S-wave strong decay stability of singly heavy tetraquark systems, including nQnn, nQsn, Qsnn, sQsn, and sQss (with Q=c,b). Choosing the bag confinement energy as a compactness criterion, the bag radius is shown to be close to the confinement uplimit of the radius, Rc = 5.615\,GeV-1, for the compact singly charmed systems,and for these systems some high-spin states are unlikely to form compact structures, while several others do exhibit potential for compactnessNotably, computation indicates that the state Tncsn(0+,2.925) emerges as a compact tetraquark with relatively large strong decay width, a plausible candidate of the observed tetrquark Tcs0a(2900).
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