A Paradigm for the Coupled-Channel Origin of Resonances: the Exotic Tcs in Ds1(2460/2536) Dsππ

Abstract

The Tcs state observed in the decay Ds1(2460)+ Ds+π+π- provides direct evidence for an isovector open-charm tetraquark state with strangeness--a discovery that demands a systematic framework connecting its origin to the nature of the parent Ds1. We successfully achieve this connection by two mechanisms, triangle loops and the coupled channel of DK-Dsπ with pure off-diagonal potentials. We first point out the behavior of propagator of Dsπ will influence the effective potential of DK DK, then we can successfully obtain the pole of Tcs on the second Reimann Sheet. By combing with the ππ-KK rescattering, not only the two-peak structure in Ds1(2460) decay is well reproduced, but also a single-peak structure is predicted in Ds1(2536) decay. The marked difference, testable at LHCb and Belle II, is driven by the S-wave versus D-wave nature of their D*K couplings, revealing the underlying structural distinction between the two Ds1 states. By directly linking hadronic structure to decay patterns, this work provides a template for deciphering the nature of such exotic states. More broadly, by revealing how non-perturbative coupled-channel effects manifest in exotic hadrons, our analysis connects to a universal mechanism shared by systems ranging from halo nuclei to atomic Feshbach resonances, offering a unified perspective across these fields.