Probing the chiral and U(1) axial symmetry restoration via meson susceptibilities in holographic QCD
Abstract
We investigate the restoration patterns of chiral and U(1) axial symmetries at finite temperature using a soft-wall holographic QCD model. The study employs two distinct parameter sets (Case I and Case II), both calibrated to reproduce a pseudocritical temperature T pc 155 MeV and the physical pion mass. The temperature dependence of the light and strange quark condensates confirms a smooth chiral crossover transition, with pseudocritical temperatures of T pc=0.157 GeV and T pc=0.154 GeV for Cases I and II, respectively. The screening masses of chiral partner mesons (π-σ and η-a0) become degenerate near T pc, providing a clear signature of chiral symmetry restoration. Analysis of the corresponding meson susceptibilities further supports this conclusion. However, the indicator for U(1) axial symmetry restoration, π - a0, vanishes at a temperature T 0.190 GeV, which indicates a distinct restoration scale with chiral symmetry restoration scale within the present holographic framework. The temperature-dependent topological susceptibility top1/4 is also computed, showing a sharp drop near T pc and a subsequent slight decrease. While the model qualitatively captures established features of the chiral transition, the results highlight a limitation in the qualitative description of the U(1) axial anomaly compared to LQCD in our work.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.