Correlation function and bound state from the K Ds0*(2317) interaction

Abstract

In anticipation of the new wave of ALICE experiments on particle-resonance correlation functions, we study the interaction of a kaon with the Ds0*(2317) resonance. Assuming the Ds0*(2317) to be a DK molecular state in isospin I=0, we employ the fixed center approximation (FCA) to describe the kaon scattering off the DK cluster, and implement elastic unitarity in the K Ds0*(2317) amplitude via an optical potential and the Lippmann-Schwinger equation. We evaluate the scattering length, effective range, and correlation function, which exhibits a shape characteristic of a strongly attractive interaction. Notably, the amplitude develops a narrow resonant peak about 40~MeV below the K Ds0*(2317) threshold, signaling a three-body bound state. We discuss the experimental feasibility of observing this state through the invariant mass distribution of K Ds+ π0, and argue that such three-body states, predicted by various theoretical approaches, offer promising targets for future experimental searches, providing valuable insights into the nature of exotic hadronic resonances.