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Bistability of the large-scale dynamics in quasi-two-dimensional turbulence

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arxiv 2201.00278 v2 pith:C3D2QMOR submitted 2022-01-02 physics.flu-dyn

Bistability of the large-scale dynamics in quasi-two-dimensional turbulence

classification physics.flu-dyn
keywords statesizebistablerangebistabilitycondensateflowhigh
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In many geophysical and astrophysical flows, suppression of fluctuations along one direction of the flow drives a quasi-2D upscale flux of kinetic energy, leading to the formation of strong vortex condensates at the largest scales. Recent studies have shown that the transition towards this condensate state is hysteretic, giving rise to a limited bistable range in which both the condensate state as well as the regular 3D state can exist at the same parameter values. In this work, we use direct numerical simulations of thin-layer flow to investigate whether this bistable range survives as the domain size and turbulence intensity are increased. By studying the time scales at which rare transitions occur from one state into the other, we find that the bistable range grows as the box size and/or Reynolds number Re are increased, showing that the bistability is neither a finite-size nor a finite-Re effect. We furthermore predict a crossover from a bimodal regime at low box size, low Re to a regime of pure hysteresis at high box size, high Re, in which any transition from one state to the other is prohibited at any finite time scale.

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