Pion spectral properties above the chiral crossover of QCD

Lowdon, P.; Philipsen, Owe

doi:10.1007/jhep10(2022)161

“…Note added: After completion of our manuscript an analysis of the pseudo-scalar spectral function at temperatures above the chiral crossover appeared [91]. It shows resonance-like peaks for the pion and its first excitation which only gradually disappear, consistent with the non-perturbative dynamics of the chiral-spin-symmetric band, as desribed here.…”

Section: Discussionsupporting

confidence: 72%

Chiral spin symmetry and the QCD phase diagram

Glozman

¹

,

Philipsen

²

,

Pisarski

³

2022

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Lattice QCD simulations with chirally symmetric quarks have recently established approximate $$SU(2)_{CS}$$ S U ( 2 ) CS and $$SU(2N_F)$$ S U ( 2 N F ) symmetries of the quantum effective action in a temperature range above the chiral crossover $$T_\textrm{ch}$$ T ch , in which color-electric interactions between quarks dominate the dynamics. We show that such an intermediate temperature range between the chirally broken and plasma regimes is fully consistent with published screening mass spectra, which demonstrate the breakdown of thermal perturbation theory at the crossover between the partonic and the chiral spin symmetric regime at $$T_s\sim (2-3)T_\textrm{ch}$$ T s ∼ ( 2 - 3 ) T ch . From the known behavior of screening masses with baryon chemical potential, we deduce qualitatively how this chiral spin symmetric band extends into the QCD phase diagram. In the cold and dense region, we propose parity doubled baryons as possible candidates for chiral spin symmetric matter. This represents a special case of quarkyonic matter with confinement and restored chiral symmetry, and can smoothly transform to quark matter at sufficiently high densities. Finally, we discuss the potential of dilepton spectra to identify such matter forms.

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“…and this domination will be especially pronounced at large distances. In QCD, hadronic correlators generally receive contributions from multiple states, and in this case the previous arguments can be suitably extended [13]. The ultimate conclusion is that the lowest energy states will have the most influence on C(x 3 ) at large distances, and the damping factors associated with these states can be directly extracted from the large-x 3 behaviour of C(x 3 ).…”

Section: The Spatial Correlatormentioning

confidence: 99%

“…( 5) it was shown in Ref. [13] that the spatial correlator of a scalar operator can be written in the following general manner…”

Section: The Spatial Correlatormentioning

confidence: 99%

“…Here we provide an overview of the study performed in Ref. [13] which focussed on the analysis of QCD spatial pseudo-scalar meson correlators, defined by…”

Section: Spatial Correlator Analysismentioning

confidence: 99%

“…In these proceedings we provide an overview of a novel approach developed in Ref. [13] for extracting spectral function information from spatial correlators. We will outline the theoretical foundations upon which this approach is based, and its application to lattice QCD data of the spatial pseudo-scalar meson correlator at different temperatures above the chiral pseudo-critical temperature T pc .…”

Section: Introductionmentioning

confidence: 99%

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Non-perturbative insights into the spectral properties of QCD at finite temperature

Lowdon

¹

,

Philipsen²

2022

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In quantum field theories at finite temperature spectral functions describe how particle systems behave in the presence of a thermal medium. Although data from lattice simulations can in principle be used to determine spectral function characteristics, existing methods rely on the extraction of these quantities from temporal correlators, which requires one to circumvent an illposed inverse problem. In these proceedings we report on a recent approach that instead utilises the non-perturbative constraints imposed by field locality to extract spectral function information directly from spatial correlators. In particular, we focus on the application of this approach to lattice QCD data of the spatial pseudo-scalar meson correlator in the temperature range 220−960 MeV, and outline why this data supports the conclusion that there exists a distinct pion state above the chiral pseudo-critical temperature Tpc.

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Pseudo-scalar meson spectral properties in the chiral crossover region of QCD

Bala,

Kaczmarek,

Lowdon

et al. 2024

J. High Energ. Phys.

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1

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Determining the type of excitations that can exist in a thermal medium is key to understanding how hadronic matter behaves at extreme temperatures. In this work we study this question for pseudo-scalar mesons comprised of light-strange and strange-strange quarks, analysing how their low-energy spectral properties are modified as one passes through the high-temperature chiral crossover region between T = 145.6 MeV and 172.3 MeV. We utilise the non-perturbative constraints satisfied by correlation functions at finite temperature in order to extract the low-energy meson spectral function contributions from spatial correlator lattice data in Nf = 2 + 1 flavour QCD. The robustness of these contributions are tested by comparing their predictions with data for the corresponding temporal correlator at different momentum values. We find that around the pseudo-critical temperature Tpc the data in both the light-strange and strange-strange channels is consistent with the presence of a distinct stable particle-like ground state component, a so-called thermoparticle excitation. As the temperature increases this excitation undergoes collisional broadening, and this is qualitatively the same in both channels. These findings suggest that pseudo-scalar mesons in QCD have a bound-state-like structure at low energies within the chiral crossover region which is still strongly influenced by the vacuum states of the theory.

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Pion spectral properties above the chiral crossover of QCD

Cited by 12 publications

References 63 publications

Chiral spin symmetry and the QCD phase diagram

Chiral spin symmetry and the QCD phase diagram

Non-perturbative insights into the spectral properties of QCD at finite temperature

Pseudo-scalar meson spectral properties in the chiral crossover region of QCD

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