Flux tube: Difference between revisions

189 bytes added ,  22 August 2011
no edit summary
No edit summary
Line 11: Line 11:
== Flux conservation ==
== Flux conservation ==


In the framework of [[Ideal Magneto-Hydrodynamics]], the MHD kinematic equation reads:
In the framework of [[Ideal Magneto-Hydrodynamics]], the MHD kinematic equation reads (in the perfectly conducting limit, <math>\sigma \to \infty</math>):
:<math>
:<math>
\frac{\partial \vec B}{\partial t} = \vec \nabla \times (\vec v \times \vec B)
\frac{\partial \vec B}{\partial t} = \vec \nabla \times (\vec v \times \vec B)
Line 17: Line 17:
This has the important consequence that a given volume of plasma contained within a flux tube ''remains'' inside the flux tube as it is advected, twisted, and stretched by the fluid flow.
This has the important consequence that a given volume of plasma contained within a flux tube ''remains'' inside the flux tube as it is advected, twisted, and stretched by the fluid flow.
<ref>A. Dinklage, ''Plasma physics: confinement, transport and collective effects'', Vol. 670 of Lecture notes in physics, Springer (2005) ISBN 3540252746</ref>
<ref>A. Dinklage, ''Plasma physics: confinement, transport and collective effects'', Vol. 670 of Lecture notes in physics, Springer (2005) ISBN 3540252746</ref>
<ref>W.D. D'haeseleer et al, ''Flux coordinates and Magnetic Field Structure'', Springer-Verlag ISBN 3-540-52419-3</ref>
This implies that the topology of the flux tube cannot change due to the fluid flow.
This implies that the topology of the flux tube cannot change due to the fluid flow.
Stated differently, the magnetic flux contained in a volume element of the plasma is carried along unchanged as the element moves.
Stated differently, the magnetic flux contained in a volume element of the plasma is carried along unchanged as the element moves.
Also, two plasma elements connected by a field line will always remain connected by that same field line as the plasma flows.
Also, two plasma elements connected by a field line will always remain connected by that same field line as the plasma flows.
This is sometimes known as the ''Frozen Flow Hypothesis''.
This is sometimes known as the ''Frozen Flux Hypothesis''.


== See also ==
== See also ==