Fluctuating vector mesons in analytically continued FRG flow equations
Abstract
In this work we study contributions due to vector and axial-vector meson fluctuations to their in-medium spectral functions in an effective low-energy theory inspired by the gauged linear sigma model. In particular, we show how to describe these fluctuations in the effective theory by massive (axial-)vector fields in agreement with the known structure of analogous single-particle or resonance contributions to the corresponding conserved currents. The vector and axial-vector meson spectral functions are then computed by numerically solving the analytically continued functional renormalization group (aFRG) flow equations for their retarded two-point functions at finite temperature and density in the effective theory. We identify the new contributions that arise due to the (axial-)vector meson fluctuations, and assess their influence on possible signatures of a QCD critical endpoint and the restoration of chiral symmetry in thermal dilepton spectra.
Cite
@article{arxiv.1909.13712,
title = {Fluctuating vector mesons in analytically continued FRG flow equations},
author = {Christopher Jung and Lorenz von Smekal},
journal= {arXiv preprint arXiv:1909.13712},
year = {2019}
}
Comments
18 pages, 14 figures, 2 tables