Real-frequency response functions at finite temperature
Abstract
Building on previous developments, we show that the Diagrammatic Monte Carlo technique allows to compute finite temperature response functions directly on the real-frequency axis within any field-theoretical formulation of the interacting fermion problem. There are no limitations on the type and nature of the system's action or whether partial summation and self-consistent treatment of certain diagram classes are used. In particular, by eliminating the need for numerical analytic continuation from a Matsubara representation, our scheme allows to study spectral densities of arbitrary complexity with controlled accuracy in models with frequency-dependent effective interactions. For illustrative purposes we consider the problem of the plasmon line-width in a homogeneous electron gas (jellium).
Cite
@article{arxiv.2102.11418,
title = {Real-frequency response functions at finite temperature},
author = {I. S. Tupitsyn and A. M. Tsvelik and R. M. Konik and N. V. Prokof'ev},
journal= {arXiv preprint arXiv:2102.11418},
year = {2021}
}
Comments
5 pages and 5 figures in the main text plus 7 pages and 7 figures in the Supplemental material