Rate of photon production in the quark-gluon plasma from lattice QCD

M. Cè, T. Harris, H. Meyer, A. Steinberg, Arianna Toniato
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引用次数: 9

Abstract

We calculate the thermal rate of real-photon production in the quark-gluon plasma at a temperature of $T=254$ MeV using lattice QCD. The calculation is based on the difference between the spatially transverse and longitudinal parts of the polarization tensor, which has the advantage of falling off rapidly at large frequencies. We obtain this linear combination in the time-momentum representation from lattice QCD with two flavors of quarks in the continuum limit with a precision of about two parts per mille. Applying a theoretically motivated fit ansatz for the associated spectral function, we obtain values for the photon rate that are in line with QCD weak-coupling calculations; for photon momenta $ 1.0\leq k[{\rm GeV}]\leq 1.4$, our non-perturbative results constrain the rate to be no larger than twice the weak-coupling prediction. We also provide a physics interpretation of the electromagnetic spectral functions valid for all frequencies and momenta.
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晶格QCD中夸克-胶子等离子体产生光子的速率
我们用晶格QCD计算了温度为$T=254$ MeV的夸克-胶子等离子体中实光子产生的热速率。该计算基于偏振张量的空间横向和纵向部分之差,具有在大频率下快速衰减的优点。在连续体极限下,我们用两种夸克的晶格QCD得到了这种时间-动量表示的线性组合,精度约为两份/英里。通过对相关谱函数的理论拟合分析,我们得到了符合QCD弱耦合计算的光子速率值;对于光子动量$ 1.0\leq k[{\rm GeV}]\leq 1.4$,我们的非微扰结果约束速率不大于弱耦合预测的两倍。我们还提供了对所有频率和动量有效的电磁谱函数的物理解释。
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