Dynamos and anti-dynamos as thin magnetic flux ropes in Riemannian spaces

Abstract

Two examples of magnetic anti-dynamos in magnetohydrodynamics (MHD) are given. The first is a 3D metric conformally related to Arnold cat fast dynamo metric: dsA2=e-λzdp2+eλzdq2+dz2 is shown to present a behaviour of non-dynamos where the magnetic field exponentially decay in time. The curvature decay as z-coordinates increases without bounds. Some of the Riemann curvature components such as Rpzpz also undergoes dissipation while component Rqzqz increases without bounds. The remaining curvature component Rpqpq is constant on the torus surface. The other anti-dynamo which may be useful in plasma astrophysics is the thin magnetic flux rope or twisted magnetic thin flux tube which also behaves as anti-dynamo since it also decays with time. This model is based on the Riemannian metric of the magnetic twisted flux tube where the axis possesses Frenet curvature and torsion. Since in this last example the Frenet torsion of the axis of the rope is almost zero, or the possible dynamo is almost planar it satisfies Zeldovich theorem which states that planar dynamos do not exist. Changing in topology of this result may result on a real dynamo as discussed.