Triangularity: Difference between revisions
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* ''R<sub>down</sub>'' is the major radius of the lower X-point (in case it exists) or of the lowest vertical point of the LCFS. | * ''R<sub>down</sub>'' is the major radius of the lower X-point (in case it exists) or of the lowest vertical point of the LCFS. | ||
The upper triangularity is then defined as follows: | The upper triangularity is then defined as follows: | ||
:<math> \ | :<math> \delta_{up} = (R_0-R_{up})/a</math> | ||
and similar for & | and similar for δ<sub>down</sub>. | ||
The overall triangularity is defined as the mean of & | The overall triangularity is defined as the mean of δ<sub>up</sub> and δ<sub>down</sub>. | ||
== See also == | == See also == | ||
* [[Ellipticity]] | * [[Ellipticity]] | ||
* [[Toroidal coordinates]] | |||
Revision as of 15:08, 11 June 2014
The triangularity refers to the shape of the poloidal cross section of the Last Closed Flux surface (LCFS) or separatrix of a tokamak. Assuming:
- R0 is the major radius of the midpoint of the 2 intersections of the LCFS or separatrix with the equatorial plane (Z = 0).
- a is the minor radius of the plasma, defined as the radial difference between the 2 intersections of the LCFS or separatrix with the equatorial plane (Z = 0), divided by 2.
- Rup is the major radius of the upper X-point (in case it exists) or of the highest vertical point of the LCFS.
- Rdown is the major radius of the lower X-point (in case it exists) or of the lowest vertical point of the LCFS.
The upper triangularity is then defined as follows:
and similar for δdown. The overall triangularity is defined as the mean of δup and δdown.