Effective plasma radius: Difference between revisions
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Revision as of 10:03, 10 August 2009
The definition of the effective plasma radius is non-trivial for stellarators, yet needed for comparing the measurements of diagnostics.
Various alternative definitions are possible. Assuming the existence of toroidally nested flux surfaces, the simplest definition is to define the mean radius as a function of some flux function. At TJ-II, magnetic equilibria can be obtained from the VMEC code. It returns ψ, the poloidal magnetic flux. The effective radius is defined by
where ψN is the normalized poloidal flux, such that it is zero on the magnetic axis and 1 at the Last Closed Flux Surface (LCFS). Other definitions can be based on the volume V(ψ) enclosed in a flux surface, or the surface area S(ψ) of a flux surface.
An effective radius can also be defined for magnetic configurations with magnetic islands, although this typically requires using an interpolation procedure. It may be argued that assigning an effective radius to spatial points inside a magnetic island is not very useful.