Masses and Mixing of c q q q Tetraquarks Using Glozman-Riska Hyperfine Interaction

Abstract

In this paper we perform a detailed study of the masses and mixing of the single charmed scalar tetraquarks: c q q q. We also give a systematic analysis of these tetraquark states by weight diagrams, quantum numbers and flavor wave functions. Tetraquark masses are calculated using four different fits. The following SU(3)F representations are discussed: 15S, 3S, 6A and 3A. We use the flavor-spin Glozman-Riska interaction Hamiltonian with SU(3) flavor symmetry breaking. There are 27 different tetraquarks composed of a charm quark c and of the three light flavors u, d, s: 11 cryptoexotic (3 Ds+, 4 D+, 4 D0) and 16 explicit exotic states. We discuss Ds and its isospin partners in the same multiplet, as well as all the other four-quark states. Some explicit exotic states appear in the spectrum with the same masses as Ds+(2632) in 15S and with the same masses as Ds+(2317) in 6A representation, which confirm the tetraquark nature of these states.