Fluctuations and correlations of conserved charges in the Polyakov chiral SU(3) quark mean field model

Abstract

We compute generalized susceptibilities of conserved charges in the Polyakov chiral SU(3) quark mean field (PCQMF) model with the fermion vacuum term. At μB = 0 MeV, the calculation covers the diagonal χnB,Q,S through eighth order and all twelve independent fourth-order off-diagonal correlators. Extending to finite μB at μQ = μS = 0, we compute χnB through eighth order, χnQ,S through fourth order, the second-order off-diagonals, all twelve fourth-order off-diagonal correlators, and the odd-order baryon susceptibilities χ1B, χ3B, χ5B. The calculation includes the vacuum term (vac=1) and is repeated for an independently refitted no-sea variant (vac=0). At μB = 0 MeV, the chiral pseudocritical temperature is Tpc = 170.5 MeV (vac=1) and 166.4 MeV (vac=0), while the Polyakov-loop deconfinement temperature is Tdec = 144.4 MeV (vac=1) and 146.6 MeV (vac=0). In vac=1, the derivative -dΔl,s/dT of the subtracted chiral condensate develops an inflection near Tdec. Higher derivative orders resolve the chiral-deconfinement splitting as twin maxima in χ4B and χ6Q, twin minima in χ8B and χ8Q, and multiple zero crossings in χ6B. Among the fourth-order off-diagonal correlators, vac=1 amplitudes exceed vac=0 in the BQ channel across the chiral crossover. The BS, QS, and mixed BQS components peak near the strange-melting temperature, where vac=0 dominates. Along Tpc(μB), the kurtosis ratio R42B χ4B/χ2B of vac=1 crosses zero at μB/Tpc ≈ 2.15, while vac=0 stays positive across the full range. The higher-order ratios R51B χ5B/χ1B and R62B χ6B/χ2B start negative in vac=1 and grow more negative as μB increases.