Hyperlogarithms in the theory of turbulence of infinite dimension

Loran Ts. Adzhemyan, Daniil A. Evdokimov, Mikhail V. Kompaniets

Published 2024-05-23, updated 2024-10-03Version 2

Parametric integration with hyperlogarithms so far has been successfully used in problems of high energy physics (HEP) and critical statics. In this work, for the first time, it is applied to a problem of critical dynamics, namely, a stochastic model of developed turbulence in high-dimensional spaces, which has a propagator that is non-standard with respect to the HEP: $(-i \omega + \nu k^2)^{-1}$. Adaptation of the hyperlogarithm method is carried out by choosing a proper renormalization scheme and considering an effective dimension of the space. Analytical calculation of the renormalization group functions is performed up to the fourth order of the perturbation theory, $\varepsilon$-expansion of the critical exponent $\omega$ responsible for the infrared stability of the fixed point is obtained.