Magnetic curvature: Difference between revisions

The magnetic curvature is defined by

${\displaystyle {\vec {\kappa }}={\vec {b}}\cdot {\vec {\nabla }}{\vec {b}}}$

where

${\displaystyle {\vec {b}}={\frac {\vec {B}}{|B|}}}$

is a unit vector along the magnetic field. κ points towards the local centre of curvature of B, and its magnitude is equal to the inverse radius of curvature.

A plasma is stable against curvature-driven instabilities (e.g., ballooning modes) when

${\displaystyle {\vec {\kappa }}\cdot {\vec {\nabla }}p<0}$

(good curvature) and unstable otherwise (bad curvature). Here, p is the pressure. ^[1]

Normal curvature

${\displaystyle \kappa _{N}={\vec {\kappa }}\cdot {\frac {{\vec {\nabla }}\psi }{|{\vec {\nabla }}\psi |}}}$

Here, ψ is a flux surface label (such as the poloidal flux).

Geodesic curvature

${\displaystyle \kappa _{G}={\vec {\kappa }}\cdot \left({\frac {{\vec {\nabla }}\psi }{|{\vec {\nabla }}\psi |}}\times {\frac {\vec {B}}{|{\vec {B}}|}}\right)}$

References