24 July 2022 to 2 August 2022
House of International Conferences
Europe/Moscow timezone

Renormalization group analysis of a self-organized critical system: Intrinsic anisotropy opposed to random medium

30 Jul 2022, 20:00
House of International Conferences

House of International Conferences

Dubna, Russia
Board: 13
Poster (A1, preferably portrait orientation) Young Scientist Forum Poster Session


Aleksandr Luchin (Saint Petersburg State University)


The phenomenon of self-organized criticality (SOC) consists in the emergence of scaling in open nonequilibrium systems with dissipative transport. Unlike equilibrium systems that arrive at critical states when control parameters approach their critical values, systems with SOC evolve to critical states due to their intrinsic dynamics. Such systems are widespread in nature with SOC being observed in physical, biological, economic and social systems. Critical behavior of stochastic system can be drastically affected by turbulent motion of the environment, thus, it is important to study the motion influence on systems with SOC.

In this report, i present a field theoretic renormalization group analysis of the continuous anisotropic model of SOC introduced in (a ”running sandpile”) coupled to the stochastic Navier–Stokes equation. The latter describes turbulent motion of the environment; the random force correlator for the equation is chosen in the form that includes two terms. The first one is local and corresponds to shaking the fluid as a whole while the second one models ”pure” turbulence.

Coordinates of the fixed points of RG equations and corresponding critical exponents are found on one loop approximation.

Primary author

Aleksandr Luchin (Saint Petersburg State University)

Presentation Materials

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