Turbulent compressible fluid: Renormalization group analysis, scaling regimes, and anomalous scaling of advected scalar fields

We study a model of fully developed turbulence of a compressible fluid, based on the stochastic Navier-Stokes equation, by means of the field-theoretic renormalization group. In this approach, scaling properties are related to the fixed points of the renormalization group equations. Previous analysis of this model near the real-world space dimension 3 identified a scaling regime [N. V. Antonov, Theor. Math. Phys. 110, 305 (1997)TMPHAH0040-577910.1007/BF02630456]. The aim of the present paper is to explore the existence of additional regimes, which could not be found using the direct perturbative approach of the previous work, and to analyze the crossover between different regimes. It seems possible to determine them near the special value of space dimension 4 in the framework of double y and expansion, where y is the exponent associated with the random force and =4-d is the deviation from the space dimension 4. Our calculations show that there exists an additional fixed point that governs scaling behavior. Turbulent advection of a passive scalar (density) field by this velocity ensemble is considered as well. We demonstrate that various correlation functions of the scalar field exhibit anomalous scaling behavior in the inertial-convective range. The corresponding anomalous exponents, identified as scaling dimensions of certain composite fields, can be systematically calculated as a series in y and . All calculations are performed in the leading one-loop approximation. © 2017 American Physical Society.

Authors
Antonov N.V.1 , Gulitskiy N.M.1 , Kostenko M.M.1 , Lučivjanský T. 2, 3
Number of issue
3
Language
English
Status
Published
Number
033120
Volume
95
Year
2017
Organizations
  • 1 Department of Physics, St. Petersburg State University, 7/9 Universitetskaya Náberezhnaya, St.-Petersburg, 199034, Russian Federation
  • 2 Faculty of Sciences, Pavol Jozef Šafárik University, Moyzesova 16, Košice, 040 01, Slovakia
  • 3 Peoples' Friendship University of Russia (RUDN University), 6 Miklukho-Maklaya Street, Moscow, 117198, Russian Federation
Keywords
High energy physics; Statistical mechanics; Stochastic models; Stochastic systems; Compressible fluids; Correlation function; One-loop approximation; Perturbative approach; Renormalization group; Renormalization group analysis; Renormalization group equations; Stochastic navier-stokes equations; Navier Stokes equations
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