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Rigorous results on conserved and dissipated quantities in ideal MHD turbulence

Daniel Faraco, Sauli Lindberg, László Székelyhidi

2022Geophysical & Astrophysical Fluid Dynamics12 citationsDOIOpen Access PDF

Abstract

We review recent mathematical results on the theory of ideal MHD turbulence. On the one hand, we explain a mathematical version of Taylor's conjecture on magnetic helicity conservation, both for simply and multiply connected domains. On the other hand, we describe how to prove the existence of weak solutions conserving magnetic helicity but dissipating cross helicity and energy in 3D Ideal MHD. Such solutions are bounded. In fact, we show that as soon as we are below the critical L-3 integrability for magnetic helicity conservation, there are weak solutions which do not preserve even magnetic helicity. These mathematical theorems rely on understanding the mathematical relaxation of MHD which is used as a model of the macroscopic behaviour of solutions of various nonlinear partial differential equations. Thus, on the one hand, we present results on the existence of weak solutions consistent with what is expected from experiments and numerical simulations, on the other hand, we show that below certain thresholds, there exist pathological solutions which should be excluded from physical grounds. It is still an outstanding open problem to find suitable admissibility conditions that are flexible enough to allow the existence of weak solutions but rigid enough to rule out physically unrealistic behaviour.

Topics & Concepts

Magnetic helicityMagnetohydrodynamicsHelicityPhysicsIdeal (ethics)Conservation lawTurbulenceClassical mechanicsBounded functionNonlinear systemMagnetic fieldMathematical analysisMathematicsMechanicsQuantum mechanicsPhilosophyEpistemologyFluid Dynamics and Turbulent FlowsNavier-Stokes equation solutionsGas Dynamics and Kinetic Theory
Rigorous results on conserved and dissipated quantities in ideal MHD turbulence | Litcius