Probing the hot and dense nuclear matter with K*,K* vector mesons

Abstract

We investigate probing the hot and dense nuclear matter with strange vector mesons (K*, K*). Our analysis is based on PHSD which incorporates partonic and hadronic dof and describes the full dynamics of HICs. This allows to study the K* and K* meson formation from the QGP and the in-medium effects related to the modification of their properties during the propagation in dense and hot matter. We employ relativistic Breit-Wigner spectral functions for the K*,K* mesons with self-energies obtained from a G-matrix approach to study the role of in-medium effects on the K* and K* meson dynamics in HIC from FAIR/NICA to LHC energies. According to our analysis most of the final K*/K*s, that can be observed experimentally, are produced during the late hadronic phase and stem dominantly from the K (K) + π K*(K*) formation channel. The amount of K*/K*s originating from the QGP channel is comparatively small even at LHC energies and such K*/K*s can hardly be reconstructed experimentally due to the rescattering of final pions and (anti-)kaons. This mirrors the results from our previous study on the strange vector-meson production in HICs at RHIC energies. The influence of the in-medium effects on the dynamics of the K*/K* is rather small since they are mostly produced at low baryon densities. Additional cuts on the shape of the observed signal and the range of the invariant mass region of the K*/K* also affect the final spectra. We demonstrate that the K*/K* in-medium effects are more visible at lower beam energy, e.g. FAIR/NICA and BES RHIC energies, where the production of K*/K*s occurs at larger baryon densities. Finally, we present the experimental procedures to extract information on the in-medium masses and widths by fitting final mass spectra at LHC energies.