Spectral densities from Euclidean lattice correlators via the Mellin transform

arXiv - PHYS - High Energy Physics - Lattice Pub Date : 2024-07-04 DOI:arxiv-2407.04141
Mattia Bruno, Leonardo Giusti, Matteo Saccardi
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Abstract

Spectral densities connect correlation functions computed in quantum field theory to observables measured in experiments. For strongly-interacting theories, their non-perturbative determinations from lattice simulations are therefore of primary importance. They entail the inverse Laplace transform of correlation functions calculated in Euclidean time. By making use of the Mellin transform, we derive explicit analytic formulae to define spectral densities from the time dependence of correlation functions, both in the continuum and on the lattice. The generalization to smeared spectral densities turns out to be straightforward. The formulae obtained here within the context of lattice field theory can be easily applied or extended to other areas of research.
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通过梅林变换从欧几里得网格相关者得出光谱密度
谱密度将量子场论中计算的相关函数与实验中测量的观测值联系起来。因此,对于强相互作用理论来说,从晶格模拟中得到的非微扰确定值至关重要。它们需要对以欧几里得时间计算的相关函数进行反拉普拉斯变换。通过利用梅林特变换,我们推导出明确的解析公式,从相关函数的时间相关性中定义连续介质和晶格中的谱密度。结果证明,将其推广到熏染谱密度是最直截了当的。在晶格场理论中获得的公式可以很容易地应用或扩展到其他研究领域。
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arXiv - PHYS - High Energy Physics - Lattice
arXiv - PHYS - High Energy Physics - Lattice
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