Exploring doubly-heavy tetraquarks in constituent-quark-model based meson-meson coupled-channels approach

Abstract

The LHCb Collaboration announced in 2021 the discovery of a new tetraquark-like state, named Tcc+, with minimum quark content cc u d, close to the D0D*+ threshold. This has motivated countless theoretical works trying to identify the dynamics which is responsible of the formation of such state; in particular, the one performed by us in Ref. Ortega:2022efc, where a D0D*+ molecular candidate whose mass, width, scattering length and effective ranges are in reasonable agreement with experimental measurements. We explore herein the possibility of having Tcc+ partners in all doubly-heavy tetraquark sectors, considering doubly represented light antiquarks u, d or s, and taking into account all possible spin-parity quantum numbers. The computation is done using a constituent-quark-model based meson-meson coupled-channels framework which has been tested many times in the last fifteen years describing conventional heavy mesons and baryons, their coupling with hadron-hadron thresholds but also in exploring its application to compact multiquark structures. The advantage of using an approach with such a relatively large history is that it allows us to make predictions because all the parameters have already been constrained from our previous works. Then, from this perspective, we present a parameter-free model-dependent prediction of doubly-heavy tetraquarks that may be partners of the discovered Tcc+ state.