Triangularity: Difference between revisions

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* ''R<sub>min</sub>'' is the minimum value of ''R'' along the LCFS or separatrix.
* ''R<sub>min</sub>'' is the minimum value of ''R'' along the LCFS or separatrix.
* ''R<sub>geo</sub>'' is the geometric major radius, defined as ''(R<sub>max</sub> + R<sub>min</sub>)/2''.
* ''R<sub>geo</sub>'' is the geometric major radius, defined as ''(R<sub>max</sub> + R<sub>min</sub>)/2''.
* ''a'' is the minor radius of the plasma, defined ''(R<sub>max</sub> - R<sub>min</sub>)/2''.
* ''a'' is the minor radius of the plasma, defined as ''(R<sub>max</sub> - R<sub>min</sub>)/2''.
* ''R<sub>upper</sub>'' is the major radius of the highest vertical point of the LCFS.
* ''R<sub>upper</sub>'' is the major radius of the highest vertical point of the LCFS.
* ''R<sub>lower</sub>'' is the major radius of the lowest vertical point of the LCFS.
* ''R<sub>lower</sub>'' is the major radius of the lowest vertical point of the LCFS.

Revision as of 14:15, 17 June 2014

Sketch of tokamak geometry, including separatrix

The triangularity refers to the shape of the poloidal cross section of the Last Closed Flux surface (LCFS) or separatrix of a tokamak. Assuming[1]:

  • Rmax is the maximum value of R along the LCFS or separatrix.
  • Rmin is the minimum value of R along the LCFS or separatrix.
  • Rgeo is the geometric major radius, defined as (Rmax + Rmin)/2.
  • a is the minor radius of the plasma, defined as (Rmax - Rmin)/2.
  • Rupper is the major radius of the highest vertical point of the LCFS.
  • Rlower is the major radius of the lowest vertical point of the LCFS.

The upper triangularity is then defined as follows:

and similar for δlower. The overall triangularity is defined as the mean of δupper and δlower.

See also

References