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Magnetic confinement: Difference between revisions
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Charged particles can be confined in a volume by means of the [[:Wikipedia:Lorentz Force|Lorentz Force]]. | Charged particles can be confined in a spatial volume by means of the [[:Wikipedia:Lorentz Force|Lorentz Force]]. | ||
In order to minimize the interaction between the confined particles and the surrounding material structures, the required magnetic fields typically have a [[Flux surface|toroidal topology]] | In order to minimize the interaction between the confined particles and the surrounding material structures, the required magnetic fields typically have a [[Flux surface|toroidal topology]] | ||
(see [[MHD equilibrium]]). | (see [[MHD equilibrium]]). | ||
In order to achieve [[Nuclear fusion|fusion]], the parameters of the confined plasma must satisfy the [[:Wikipedia:Lawson criterion|Lawson criterion]]. | |||
== | == Toroidal magnetic confinement devices == | ||
* [[Tokamak]] | * [[Tokamak]] | ||
* [[Stellarator]] | * [[Stellarator]] | ||
* [[Reversed Field Pinch]] | * [[Reversed Field Pinch]] | ||