Bridging doubly heavy tetraquark mass spectrum with heavy baryons utilizing heavy antiquark-diquark symmetry

Abstract

Motivated by the observation of the doubly charmed tetraquark Tcc(3875)+, we present a systematic study of double heavy tetraquarks (TQQ'qq') using heavy antiquark-diquark symmetry (HADS) within a constituent quark model. By calibrating model parameters to known hadron spectra and incorporating the effective mass formula, we predict the masses for 38 ground-state tetraquarks with cc, bb, and bc heavy quark pairs, including the non-strange, single-strange, and double-strange configurations with quantum numbers JP = 0+, 1+ and 2+. Notably, we identify several stable states below the relevant meson-meson thresholds, particularly in the bbqq' sector. The explicit connection between doubly heavy tetraquark and heavy baryon spectra through HADS reduces model dependence and reveals fundamental systematics in the heavy-quark hadron landscape.