Dynamical supersymmetry for strange quark and ud antidiquark in hadron mass spectrum

Abstract

Speculating that the ud diquark with spin 0 has a similar mass to the constituent s quark, we introduce a symmetry between the s quark and the ud diquark. Constructing an algebra for this symmetry, we regard a triplet of the s quarks with spin up and down and the ud diquark with spin 0 as a fundamental representation of this algebra. We further build higher representations constructed by direct products of the fundamental representations. We propose assignments of hadrons to the multiples of this algebra. We find in particular that \Ds, Ds*, c\, \ηs, φ, , f0(1370)\ and \c, Tsc\ form a triplet, a nonet and a quintet, respectively, where Tsc is a genuine tetraquark meson composed of udsc. We also find a mass relation between them by introducing the symmetry breaking due to the mass difference between the s quark and the ud diquark. The masses of possible tetraquarks udsc and udsb are estimated from the symmetry breaking and the masses of c and b to be 2.942 GeV and 6.261 GeV, respectively.