The in-medium mass and decay width of the $\varphi$ meson in hot asymmetric strange hadronic matter is calculated using an effective Lagrangian approach for the $\varphi K\overline{K}$ interaction. The in-medium contributions of the $K\overline{K}$ loop to the $\varphi$ meson self-energy are computed by the medium modified kaon and antikaon mass, which is evaluated using the chiral SU(3) model. To deal with the ultraviolet divergence, we regularize the loop integral of self-energy with a dipole form factor, and present the results for the range of cutoff mass ${\mathrm{\Lambda }}_c=$ 1–4 GeV. In chiral model calculations, for strange matter, we find that the mass of kaons and antikaons decreases with the increase in baryonic density, whereas the finite temperature causes an increase in the mass. We observed that the in-medium $\varphi$ meson mass decreases slowly with baryonic density whereas the decay width increases rapidly. The results in the present investigation support a result in the literature which indicates a small downward shift in mass and a large broadening in the decay width. In the asymmetric strange hadronic matter, the study of the $\varphi$ mesons can be relevant for compressed strange baryonic matter. The experimental observables such as dilepton spectra can perhaps be extracted from experiments in the future Facility for Antiproton and Ion Research (FAIR) facility at GSI.

• Received 13 May 2020
• Revised 11 September 2020
• Accepted 12 October 2020

DOI:https://doi.org/10.1103/PhysRevC.102.045206

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Published by the American Physical Society