Plasma instability: Difference between revisions

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Instabilities in plasmas are often referred to as 'modes'. Strictly speaking, these terms correspond to different concepts:
Instabilities in plasmas are often referred to as 'modes'. Strictly speaking, these terms correspond to different concepts:
* Instability: the existence of an instability is determined by calculating the growth rate of an infinitesimal perturbation. If this growth rate is positive, the perturbation is unstable.
* Instability: the existence of an instability is determined by calculating the growth rate of an infinitesimal perturbation. If this growth rate is positive, the perturbation is unstable.
* Mode: a (normal) mode is a (global) solution of a (linear) evolution equation. Typically, this solution is a (standing or propagating) wave. The linearity of the equation allows any solution to be composed into a sum of mutually orthogonal normal modes. If the equation is non-linear, the term 'mode' has to be used with care.
* Mode: a (normal) mode is a (global) solution of a (linear) evolution equation. Typically, this solution is a (standing or propagating) wave. The linearity of the equation allows any solution to be decomposed into a sum of mutually orthogonal normal modes. If the equation is non-linear, the term 'mode' has to be used with caution.


Plasma instabilities can be classified into a number of types according to their drive (or free energy source):
Plasma instabilities can be classified into a number of types according to their drive (or free energy source):
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Below is a list of some instabilities relevant to fusion plasmas (to be completed).
Below is a list of some instabilities relevant to fusion plasmas (to be completed).
* Alfvén eigenmode
* [[Alfvén eigenmodes]]
* Ballooning instability
* [[Ballooning instability]]
* Drift wave instability
* [[Drift wave instability]]
* [[Edge Localized Modes]]
* [[Edge Localized Modes]]
* Electron Temperature Gradient instability
* [[Electron Temperature Gradient instability]]
* Flute instability
* Flute instability
* Geodesic Acoustic Mode
* [[Geodesic Acoustic Mode]] (GAM)
* Interchange instability
* [[Interchange instability]]
* Ion Temperature Gradient instability
* [[Ion Temperature Gradient instability]]
* Kink instability
* Kink instability
* Sausage instability
* Sausage instability
* Tearing mode instability, see also [[Magnetic island]]
* [[Tearing mode instability]], see also [[Magnetic island]]
* Whistler mode
* Whistler mode



Latest revision as of 10:34, 17 September 2011

Instabilities in plasmas are often referred to as 'modes'. Strictly speaking, these terms correspond to different concepts:

  • Instability: the existence of an instability is determined by calculating the growth rate of an infinitesimal perturbation. If this growth rate is positive, the perturbation is unstable.
  • Mode: a (normal) mode is a (global) solution of a (linear) evolution equation. Typically, this solution is a (standing or propagating) wave. The linearity of the equation allows any solution to be decomposed into a sum of mutually orthogonal normal modes. If the equation is non-linear, the term 'mode' has to be used with caution.

Plasma instabilities can be classified into a number of types according to their drive (or free energy source):

  • Rayleigh-Taylor instabilities due to density gradients or boundaries, associated with non-electromagnetic forces (e.g., gravity)
  • Gradient driven instabilities, associated with thermodynamic forces due to gradients in an otherwise Maxwellian plasma
  • Kinetic instabilities, associated with deviations from Maxwellianity, i.e., the anisotropy of the velocity distribution function
  • Streaming instabilities, associated with energetic particles or electric currents interacting with the plasma, producing waves

Below is a list of some instabilities relevant to fusion plasmas (to be completed).

See also