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CALSCALE:GREGORIAN
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X-ORIGINAL-URL:https://ktfa.science.upjs.sk/
X-WR-CALNAME:Department of Theoretical Physics and Astrophysics
X-WR-CALDESC:Pavol Jozef Šafárik University in Košice
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BEGIN:VEVENT
CLASS:PUBLIC
UID:MEC-fdda9a02e74db979787c28a079fe51ef@ktfa.science.upjs.sk
DTSTART:20190404T121500Z
DTEND:20190404T131500Z
DTSTAMP:20200205T182600Z
CREATED:20200205
LAST-MODIFIED:20200205
PRIORITY:5
TRANSP:OPAQUE
SUMMARY:Renormalization group analysis of stochastic and turbulent systems
DESCRIPTION:Nikolay Gulitskiy \nDepartment of High Energy Physics and Elementary Particles\nSaint Petersburg State University\nIn our works we apply quantum field methods developed initially to describe interactions between elementary particles to the problems of statistical physics, namely to the fully developed hydrodynamic turbulence. The general feature of such models of statistical physics like critical behaviour and turbulence is presence of strong fluctuations, and, therefore, the presence of divergences in perturbation theory and absence of small perturbation parameter. In this case the main role is played by ideas of symmetries, remormalization (the system do not depend on the details of physics in small scales), universality (the system depends only on the global characteristics like dimensionality of the space) and scaling.\nThe theory of critical behaviour states that universal characteristics of the systems under consideration (critical exponents, rations of the amplitudes, scaling functions) depends only on the tensor nature of the field and dimension of the space and can be calculated in the framework of the some systematical expansion. For the turbulent motion the multiscaling behavior is characteristic: the correlation functions of different orders are described by infinite set of different independent exponents. Moreover, the perturbation theory is constructed using the Reynolds number which is not small for the turbulent motion.\nDuring the talk we will discuss how the initial stochastic problem with random noise can be reformulated via some quantum field theory and how renormalization group technique allows us to work with not small perturbation parameter and summarize infinite (asymptotical) series of divergent Feynman diagrams.\n
URL:https://ktfa.science.upjs.sk/events/renormalization-group-analysis-of-stochastic-and-turbulent-systems/
CATEGORIES:KTFA seminar
LOCATION:Jesenna 5, Košice
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