Melting of 𝜌2 meson at extreme temperatures

TURKISH PHYSICAL SOCIETY 35TH INTERNATIONAL PHYSICS CONGRESS (TPS35) Pub Date : 2019-11-25 DOI:10.1063/1.5135446

E. Sertbakan, J. Y. Süngü, A. Türkan, E. V. Veliev

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Abstract

The thermal properties of the light tensor ρ2 meson with quantum numbers JPC = 2−− are studied at finite temperature. In our calculations, two-point Thermal QCD sum rules approach is employed including contributions up to operator dimension-5 of quark, gluon, and quark-gluon mix condensates. We present thermal effects on the main hadronic properties namely, mass and decay constant of the considered resonance in SU(3) nonet, which provides more knowledge about axial-tensor family for experiments. The non-perturbative treatments of the light quark dynamics results in mass spectra at zero temperature agree with available experimental data and thermal behavior of meson parameters can be tested in future experiments.The thermal properties of the light tensor ρ2 meson with quantum numbers JPC = 2−− are studied at finite temperature. In our calculations, two-point Thermal QCD sum rules approach is employed including contributions up to operator dimension-5 of quark, gluon, and quark-gluon mix condensates. We present thermal effects on the main hadronic properties namely, mass and decay constant of the considered resonance in SU(3) nonet, which provides more knowledge about axial-tensor family for experiments. The non-perturbative treatments of the light quark dynamics results in mass spectra at zero temperature agree with available experimental data and thermal behavior of meson parameters can be tested in future experiments.

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𝜌2介子在极端温度下的熔化

研究了量子数为JPC = 2−−的光张量ρ2介子在有限温度下的热性质。在我们的计算中，采用两点热QCD和规则方法，包括对算子维-5的贡献，包括夸克、胶子和夸克-胶子混合凝聚体。我们给出了热效应对SU(3) nonet中所考虑的共振的主要强子性质即质量和衰变常数的影响，为实验提供了更多关于轴张量族的知识。轻夸克动力学在零温度下质谱的非微扰处理结果与现有的实验数据一致，介子参数的热行为可以在未来的实验中进行测试。研究了量子数为JPC = 2−−的光张量ρ2介子在有限温度下的热性质。在我们的计算中，采用两点热QCD和规则方法，包括对算子维-5的贡献，包括夸克、胶子和夸克-胶子混合凝聚体。我们给出了热效应对SU(3) nonet中所考虑的共振的主要强子性质即质量和衰变常数的影响，为实验提供了更多关于轴张量族的知识。轻夸克动力学在零温度下质谱的非微扰处理结果与现有的实验数据一致，介子参数的热行为可以在未来的实验中进行测试。

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TURKISH PHYSICAL SOCIETY 35TH INTERNATIONAL PHYSICS CONGRESS (TPS35)

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