Ardit Krasniqi, Marco Cè, Renwick J. Hudspith, Harvey B. Meyer
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Hot QCD matter around the chiral crossover: a lattice study with $O(a)$-improved Wilson fermions
Using lattice QCD simulations with $O(a)$-improved Wilson quarks and physical
up, down and strange quark masses, we investigate the properties of thermal QCD
matter at the temperatures $T=\{128,154,192\}\mathrm{MeV}$ with a fixed lattice
spacing $a=0.064\mathrm{fm}$ and volume $V=(6.1\text{fm})^3$. We find that the
pion quasiparticle, defined as the low-energy pole in the two-point function of
the axial charge, becomes lighter as the temperature increases and give an
argument based on hydrodynamics as to why the pole becomes purely diffusive
above the chiral crossover. We study the thermal modification of the isovector
vector spectral function using the Backus-Gilbert method, finding an
enhancement at low energies and a depletion at energies around
$1\mathrm{GeV}$.The analogous study of the axial-vector channel reveals a
larger enhancement at energies below $1\mathrm{GeV}$, and we show that these
findings are consistent with rigorous spectral sum rules. The difference
between vector and axial-vector correlators, an order parameter for chiral
symmetry, turns out to be overall suppressed by more than an order of magnitude
at the crossover.
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