Mass-Spectroscopy of [bb][bb] and [bq][bq] tetraquark states in a diquark-antidiquark formalism

Abstract

In this article, we utilise the non-relativistic potential model to calculate the mass-spectra of all bottom [bb][bb] and heavy-light bottom [bq][bq] (q=u,d) tetraquark states in diquark-antidiquark approximation. The four-body problem is reduced into two-body problems by numerically solving the Schrodinger equation using a cornell-inspired potential along with relativistic correction term. The splitting structure of the tetraquark spectrum is described using spin-dependent terms (spin-spin, spin-orbit, and tensor). We have successfully calculated and predicted the masses of bottom mesons, diquarks and tetraquarks. The masses of S and P-wave tetraquark states [bb][bb] and [bq][bq], respectively, are found to be between 18.7-19.4 GeV and 10.4-11.3 GeV, in which the masses of S-wave [bb][bb] states are less than the 2ηb, ηb, and 2 threshold. Additionally, we investigated the Zb(10610) and Z b(10650) states in the current model and found that they are 150 MeV below the BB* and B*B* thresholds.