Spin Dependence of Meson Thresholds in the Diabatic Dynamical Diquark Model

TL;DR

This paper extends the diabatic dynamical diquark model to include heavy-quark spin symmetry effects, providing explicit potentials for various states and applying them to specific exotic hadrons.

Contribution

It introduces a systematic way to incorporate heavy-quark spin symmetry into the diquark model, enhancing the understanding of meson thresholds in exotic hadrons.

Findings

Derived explicit interaction potentials for J=0,1,2 states.

Included spin factors and mass differences for mesons related by heavy-quark symmetry.

Applied the model to states like χc1(3872) and Tc(3900).

Abstract

The diabatic dynamical diquark model is designed to unify diquark and molecular approaches for exotic hadrons, by including the effects of di-meson thresholds on fundamental diquark-antidiquark states in order to form physical tetraquarks. We generalize this model by implementing the consequences of heavy-quark spin symmetry for each di-meson pair. We include the specific spin factors and mass differences associated with mesons related by this symmetry (such as $D, D^*$), both features being necessary for the systematic incorporation of effects beyond the static, heavy-source limit inherent to the (adiabatic) Born-Oppenheimer treatment. We obtain explicit interaction potentials for all $J = 0, 1, 2$ states, along the way deriving unusual variants of Fierz reordering identities, and discuss the application of the potentials to specific physical states such as $\chi_{c1}(3872)$ and $T_{c\bar c 1}(3900)$.