Directed-bond percolation subjected to synthetic compressible velocity fluctuations: Renormalization group approach


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Abstract

We study the directed-bond percolation process (sometimes called the Gribov process because it formally resembles Reggeon field theory) in the presence of irrotational velocity fluctuations with long-range correlations. We use the renormalization group method to investigate the phase transition between an active and an absorbing state. All calculations are in the one-loop approximation. We calculate stable fixed points of the renormalization group and their regions of stability in the form of expansions in three parameters (ε, y, η). We consider different regimes corresponding to the Kraichnan rapid-change model and a frozen velocity field.

About the authors

N. V. Antonov

St. Petersburg University

Author for correspondence.
Email: nikolai.antonov@pobox.spbu.ru
Russian Federation, St. Petersburg

M. Hnatich

Institute of Experimental Physics; Pavol Jozef Šafárik University in Košice; Bogoliubov Laboratory of Theoretical Physics

Email: nikolai.antonov@pobox.spbu.ru
Slovakia, Košice; Košice; Dubna, Moscow Oblast

A. S. Kapustin

St. Petersburg University

Email: nikolai.antonov@pobox.spbu.ru
Russian Federation, St. Petersburg

T. Lučivjanský

Pavol Jozef Šafárik University in Košice; University of Duisburg-Essen

Email: nikolai.antonov@pobox.spbu.ru
Slovakia, Košice; Essen

L. Mižišin

Pavol Jozef Šafárik University in Košice

Email: nikolai.antonov@pobox.spbu.ru
Slovakia, Košice

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