Signatures of Odd-Parity s-wave * States in Femtoscopic Correlation Functions

Abstract

We investigate the * resonances within the molecular picture, where these states are dynamically generated as poles in the unitarized scattering amplitudes arising from the coupled-channel interactions of K*- , K*- 0, - 0, K*0 -, 0 -, ω -, and φ -. The interaction kernel is derived from the local hidden gauge formalism, while the unitarization procedure employs a hybrid method that combines cutoff and dimensional regularizations in the evaluation of the loop function. From a detailed spectroscopic analysis, we identify two S = -2 baryon states whose properties are compatible with some of the * resonances listed in the Review of Particle Physics. To explore their possible experimental signatures, we compute the femtoscopic correlation functions for all the vector-baryon pairs considered in the present study, using realistic estimates of production weights and varying source sizes R = 1, 1.1, 1.2, 1.3, 1.5 fm.