Kaons in hot and dense QCD

Abstract

We present a systematic QCD sum-rule analysis of the in-medium properties of the charged kaon doublet K over the full (T,ρ) plane relevant to current and forthcoming heavy-ion experiments. Working within the QCD sum-rule framework and incorporating temperature-and density-dependent quark, gluon, and mixed condensates, we derive Borel-transformed sum rules for the effective masses mK, the pseudoscalar decay constants fK, and the vector self-energy Σv of both charged states simultaneously. Our vacuum results, mK- = 494.6+4.9-6.9~MeV and fK- = 157.3+4.1-2.9~MeV (with near-degenerate K+ values), are in excellent agreement with Particle Data Group values at the sub-percent level. In the medium, mK decreases monotonically with increasing baryon density and temperature, signalling progressive partial restoration of chiral symmetry. A pronounced mass splitting Δm = mK- - mK+ develops in baryonic matter, driven by the opposite sign of the Weinberg--Tomozawa vector interaction for the two charge states; it reaches |Δm| 0.35~GeV near ρ 3.2\,ρ sat at T = 0 and is partially quenched by thermal fluctuations. A central outcome of this study is the extraction of the critical onset density ρc, defined as the threshold beyond which the in-medium modifications of K- properties signal the onset of the transition toward the chirally restored phase. We stress that ρc(T) should not be interpreted as a precise determination of the QCD critical point-a task beyond the reach of any current effective framework-but rather as an indicator ....