Heavy- and light-flavor symmetry partners of the Tcc+(3875), the X(3872) and the X(3960) from light-meson exchange saturation

Abstract

The spectrum of the charmed meson-(anti)meson system is a fundamental tool for disentangling the nature of a few exotic hadrons, including the recently discovered Tcc+(3875) tetraquark, the X(3960), or the X(3872), the nature of which is still not clear after almost two decades of its discovery. Here we consider that the charmed meson-(anti)meson short-range interaction is described by the exchange of light-mesons (σ, , ω). The effects of light-meson exchanges are recast into a simple contact-range theory by means of a saturation procedure, resulting in a compact description of the two-hadron interaction. From this, if the Tcc+ were to be an isoscalar D* D molecule, then there should exist an isoscalar J=1 D* D* partner, as constrained by heavy-quark spin symmetry. Yet, within our model, the most attractive two charmed meson configurations are the isovector J=0 D* D* molecule and its sextet Ds* D* and Ds* Ds* flavor partners. Finally, we find a tension between the molecular descriptions of the Tcc+ and that of the X(3872) and X(3960), where most parameter choices suggest that if the Tcc+ is purely molecular then the X(3872) overbinds (or conversely, if the X(3872) is a molecule the Tcc+ does not bind). This might be consequential for determining the nature of these states.