Stellarator symmetry: Difference between revisions
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Stellarator symmetry is a property of typical [[ | Stellarator symmetry is a property of typical [[stellarator]] magnetic configurations. | ||
It is important to be aware that it is an ''imposed'' (artificial) symmetry, | It is important to be aware that it is an ''imposed'' (artificial) symmetry, | ||
reflecting the symmetry of the design of the external magnetic field coils generating the configuration, and | reflecting the symmetry of the design of the external magnetic field coils generating the configuration, and | ||
not an ''inherent'' (natural) symmetry of stellarator plasmas. | not an ''inherent'' (natural) symmetry of stellarator plasmas. | ||
<ref>[http://dx.doi.org/10.1016/S0167-2789(97)00216-9 R.L. Dewar, S.R. Hudson, ''Stellarator symmetry'', Physica D, '''112''' (1998) 275]</ref> | <ref>[http://dx.doi.org/10.1016/S0167-2789(97)00216-9 R.L. Dewar, S.R. Hudson, ''Stellarator symmetry'', Physica D, '''112''' (1998) 275]</ref> | ||
Therefore, it has the same status as [[ | Therefore, it has the same status as [[axisymmetry]] in [[tokamak]]s. | ||
In a [[Toroidal coordinates|cylindrical coordinate system]], it is expressed as follows for a scalar field: | In a [[Toroidal coordinates|cylindrical coordinate system]], it is expressed as follows for a scalar field: |
Revision as of 09:00, 5 September 2013
Stellarator symmetry is a property of typical stellarator magnetic configurations. It is important to be aware that it is an imposed (artificial) symmetry, reflecting the symmetry of the design of the external magnetic field coils generating the configuration, and not an inherent (natural) symmetry of stellarator plasmas. [1] Therefore, it has the same status as axisymmetry in tokamaks.
In a cylindrical coordinate system, it is expressed as follows for a scalar field:
with respect to the symmetry plane φ = 0. Likewise, for a vector field:
With N-fold rotation symmetry around the Z axis, there are 2N such planes.