Flux surface: Difference between revisions

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In three dimensions, the only closed flux surface corresponding to a ''non-vanishing'' vector field is a topological toroid.
In three dimensions, the only closed flux surface corresponding to a ''non-vanishing'' vector field is a topological toroid.
<ref>The Poincaré-Hopf Theorem.</ref>
<ref>[[:Wikipedia:Hairy_ball_theorem|The Poincaré-Hopf Theorem]].</ref>
This fact lies at the basis of the design of magnetic confinement devices.
This fact lies at the basis of the design of magnetic confinement devices.



Revision as of 15:08, 19 August 2009

A given smooth surface S with normal n is a flux surface of a smooth vector field B when

everywhere. Defining a scalar flux function (f) such that its value is constant on the surface S, this can be rewritten

In three dimensions, the only closed flux surface corresponding to a non-vanishing vector field is a topological toroid. [1] This fact lies at the basis of the design of magnetic confinement devices.

If a single vector field B has several such toroidal flux surfaces, they must necessarily be nested (since they cannot intersect) or be disjoint. Ignoring the latter possibility, it then makes sense to use the function f to label the flux surfaces, so f may be used as an effective "radial" coordinate. The toroidal surface enclosing a volume of zero size is the toroidal axis (called magnetic axis when B is a magnetic field).

References