Self-Generated Plasma Rotation in a Z-Pinch Implosion with Preembedded Axial Magnetic Field
M. Cvejić, D. Mikitchuk, E. Kroupp, R. Doron, P. Sharma, Y. Maron, A. L. Velikovich, A. Fruchtman, I. E. Ochs, E. J. Kolmes, N. J. Fisch
Abstract
Using detailed spectroscopic measurements, highly resolved in both time and space, a self-generated plasma rotation is demonstrated using a cylindrical implosion with a preembedded axial magnetic field (B_{z0}). The rotation direction is found to depend on the direction of B_{z0} and its velocity is found comparable to the peak implosion velocity, considerably affecting the force and energy balance throughout the implosion. Moreover, the evolution of the rotation is consistent with magnetic flux surface isorotation, a novel observation in a Z pinch, which is a prototypical time dependent system.
Topics & Concepts
ImplosionPhysicsRotation (mathematics)Magnetic fieldPlasmaMagnetic fluxFlux (metallurgy)Magnetic energyMagnetic pressureAtomic physicsField (mathematics)MagnetohydrodynamicsRotating magnetic fieldEnergy (signal processing)Energy fluxL-shellPlasma diagnosticsEnergy balanceComputational physicsLaser-Plasma Interactions and DiagnosticsDust and Plasma Wave PhenomenaLaser-induced spectroscopy and plasma