Rotational transform: Difference between revisions

Revision as of 01:44, 6 May 2011

The rotational transform (or field line pitch) ι/2π is defined as the mean number of toroidal transits (n) divided by the mean number of poloidal transits (m) of a field line on a toroidal flux surface. The definition can be relaxed somewhat to include field lines moving in a spatial volume between two nested toroidal surfaces (e.g., a stochastic field region).

Assuming the existence of toroidally nested magnetic flux surfaces, the rotational transform on such a surface may also be defined as ^[1]

{\frac {\iota }{2\pi }}={\frac {d\psi }{d\Phi }}

where ψ is the poloidal magnetic flux, and Φ the toroidal magnetic flux.

Safety factor

In tokamak research, the quantity q = 2π/ι is preferred (called the "safety factor"). In a circular tokamak, the equations of a field line on the flux surface are, approximately: ^[2]

{\frac {rd\theta }{B_{\theta }}}={\frac {Rd\varphi }{B_{\varphi }}}

where $\phi$ and θ are the toroidal and poloidal angles, respectively. Thus $q=m/n=\left\langle d\varphi /d\theta \right\rangle$ can be approximated by

q\simeq {\frac {rB_{\varphi }}{RB_{\theta }}}

Where the poloidal magnetic field ${B_{\theta }}$ is mostly produced by a toroidal plasma current. The principal significance of the safety factor q is that if $q\leq 2$ at the last closed flux surface (the edge), the plasma is magnetohydrodynamically unstable.^[3]

In tokamaks with a divertor, q approaches infinity at the separatrix, so it is more useful to consider q just inside the separatrix. Is is customary to use q at the 95% flux surface (q95).

References

↑ A.H. Boozer, Physics of magnetically confined plasmas, Rev. Mod. Phys. 76 (2004) 1071
↑ K. Miyamoto, Plasma Physics and Controlled Nuclear Fusion, Springer-Verlag (2005) ISBN 3540242171
↑ Wesson J 1997 Tokamaks 2nd edn (Oxford: Oxford University Press) p280

[1] A.H. Boozer, Physics of magnetically confined plasmas, Rev. Mod. Phys. 76 (2004) 1071

[2] K. Miyamoto, Plasma Physics and Controlled Nuclear Fusion, Springer-Verlag (2005) ISBN 3540242171

[3] Wesson J 1997 Tokamaks 2nd edn (Oxford: Oxford University Press) p280

[1]

[2]

[3]

@@ Line 23: / Line 23: @@
 :<math>q \simeq \frac{r B_\varphi}{R B_\theta}</math>
-Where the poloidal magnetic field <math>{B_\theta}</math> is mostly produced by a toroidal plasma current. The principal significance of the safety factor q is that if <math>q \leq 2</math> at the last closed flux surface (the edge), the plasma is [[magnetohydronamically]] unstable.<ref>Wesson J 1997 Tokamaks 2nd edn (Oxford: Oxford University Press) p280 </ref>
+Where the poloidal magnetic field <math>{B_\theta}</math> is mostly produced by a toroidal plasma current. The principal significance of the safety factor q is that if <math>q \leq 2</math> at the last closed flux surface (the edge), the plasma is [[magnetohydrodynamically]] unstable.<ref>Wesson J 1997 Tokamaks 2nd edn (Oxford: Oxford University Press) p280 </ref>
 In [[Tokamak|tokamaks]] with a [[divertor]], q approaches infinity at the [[separatrix]], so it is more useful to consider q just inside the separatrix. Is is customary to use q at the 95% flux surface (q95).

Rotational transform: Difference between revisions

Revision as of 01:44, 6 May 2011

Safety factor

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References

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Rotational transform: Difference between revisions

Revision as of 01:44, 6 May 2011

Safety factor

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References

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