Probing Late-Stage Hadronic Interactions at High Baryon Density via K*0 Production in the RHIC Beam Energy Scan Program

Abstract

A precision measurement of the K*0 meson yield is reported in Au+Au collisions at sNN = 7.7,\; 11.5,\; 14.6,\; 19.6, and 27~GeV using the high-statistics data sample collected by the STAR experiment during the Beam Energy Scan II (BES-II) program at RHIC. The transeverse momentum (pT)-integrated yield ratios (K*0 + K*0)/(K+ + K-) in central collisions show a suppression relative to peripheral collisions at the (1.7-3.6)\,σ level, while a thermal model without final-stage rescattering overpredicts this ratio with a deviation of (6.9-8.2)\,σ. These results indicate a loss of the measured K*0 signal in central collisions due to re-scattering of its hadronic decay products in the hadronic phase. The pT-integrated yield of charged kaons exhibits an approximate scaling with charged-particle multiplicity, independent of collision energy and system size. A similar trend is observed for the short-lived K*0 resonance, although significant deviations emerge at lower energies. At BES energies, the K*0/K ratio shows stronger suppression than at the highest RHIC and LHC energies within a given multiplicity bin, particularly in central and mid-central collisions. This behavior is consistent with changes in the effective hadronic interaction cross section and is supported by transport model calculations, which indicate dominant meson-baryon interactions at lower energies and meson-meson interactions at higher energies.