Condensed Matter Seminar: Out-of-equilibrium fluxes shape the self-organization of turbulence with local interactions

Anna Frishman, Technion

11 March 2024, 11:00 
Kaplun Building, Flekser Hall 118 
Condensed Matter Seminar

Zoom: https://tau-ac-il.zoom.us/j/89168813239

 

Abstract:

The self-organization of turbulence is a remarkable property of flows with two sign-definite conserved quantities. When such flows are forced at small scales, a coherent flow called a condensate emerges, and is sustained by turbulence. The organizational principle for the condensate is that it should occupy the entire domain, respect its symmetries and be independent of small-scale details. One class of flows where condensation occurs is a rapidly rotating shallow fluid layer under the influence of gravity. This family of two-dimensional flows is characterized by a single parameter, the Rossby deformation radius R, which determines the range of influence of a flow perturbation. When R is much larger than the domain size, the flow reduces to two-dimensional Navier-Stokes. In the opposite limit of vanishing R, a regime termed LQG, interactions between fluid elements become strictly local. The condensate in the former case is well studied. We perform direct numerical simulations of the condensate in the latter case. We uncover an unexpected organizational principle in a flow with local interactions: the condensate area is determined by the ratio between the forcing scale and the UV cutoff. In particular, the large-scale flow can take different configurations depending on this ratio, including flows which break the domain symmetry and regions of bi-stability. We explain how this behavior is a consequence of the fluxes of the two conserved quantities in the system. Finally, we argue that in the thermodynamic limit (increasing system size), the condensate will exhibit spontaneous symmetry breaking at a critical ratio between forcing scale and UV cutoff.

 

 

Event Organizer: Dr. Yochai Bar Sinai

 

Recordings of past seminars >

 

Tel Aviv University makes every effort to respect copyright. If you own copyright to the content contained
here and / or the use of such content is in your opinion infringing, Contact us as soon as possible >>