Evolution of Magnetic Fields in Freely Decaying Magnetohydrodynamic Turbulence

Abstract

We study the evolution of magnetic fields in freely decaying magnetohydrodynamic turbulence. By quasi-linearizing the Navier-Stokes equation, we solve analytically the induction equation in quasi-normal approximation. We find that, if the magnetic field is not helical, the magnetic energy and correlation length evolve in time respectively as EB t-2(1+p)/(3+p) and B t2/(3+p), where p is the index of initial power-law spectrum. In the helical case, the magnetic helicity is an almost conserved quantity and forces the magnetic energy and correlation length to scale as EB (log t)1/3 t-2/3 and B (log t)-1/3 t2/3.