Magnetic helicity and subsolutions in ideal MHD
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We show that ideal 2D MHD does not possess weak solutions (or even subsolutions) with compact support in time and non-trivial magnetic field. We also show that the $\Lambda$-convex hull of ideal MHD has empty interior in both 2D and 3D; this is seen by finding suitable $\Lambda$-convex functions. As a consequence we show that mean-square magnetic potential is conserved in 2D by subsolutions and weak limits of solutions in the physically natural energy space $L^\infty_t L^2_x$, and in 3D we show the conservation of magnetic helicity by $L^3$-integrable subsolutions and weak limits of solutions. However, in 3D the $\Lambda$-convex hull is shown to be large enough that nontrivial smooth, compactly supported strict subsolutions exist.
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Weak solutions of ideal MHD which do not conserve magnetic helicity
Finite-energy weak solutions to ideal MHD exist with time-varying magnetic helicity, proving they are not attainable in the infinite-conductivity zero-viscosity limit.
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