- Plasma modeling
Plasma Modeling refers to solving
equations of motion that describe the state of a plasma. It is generally coupled withMaxwell's Equations forelectromagnetic field s (orPoisson's Equation for electrostatic fields). There are several main types of plasma models: single particle, kinetic, fluid, hybrid kinetic/fluid and gyrokinetic.ingle Particle Description
The single particle model describes the plasma as individual electrons and ions moving in imposed (rather than self-consistent) electric and magnetic fields. The motion of each particle is thus described by the
Lorentz Force Law .In many cases of practical interest, this motion can be treated as the superposition of a relatively fast circular motion around a point called theguiding center and a relatively slow drift of this point.Kinetic Description
The kinetic model is the most fundamental way to describe a plasma, resultantly producing a
distribution function :where the independent variables and areposition andvelocity , respectively.A kinetic description is achieved by solving theBoltzmann equation or, when the correct description of long-range Coulomb interaction is necessary, by theVlasov equation which contains self-consistent collective electromagnetic field, or by theFokker-Planck equation , in which approximations have been used to derive manageable collision terms. The charges and currents produced by the distribution functions self-consistently determine the electromagnetic fields viaMaxwell's equations .Fluid Description
To reduce the complexities in the kinetic description, the fluid model describes the plasma based on macroscopic quantities (velocity moments of the distribution such as density, mean velocity, and mean energy). The equations for macroscopic quantities, called fluid equations, are obtained by taking velocity moments of the
Boltzmann equation . The fluid equations are not closed without the determination of transport coefficients such as mobility,diffusion coefficient , averaged collision frequencies, and so on. To determine the transport coefficients, the velocity distribution function must be assumed/chosen. But this assumption can lead to a failure of capturing some physics.Hybrid Kinetic/Fluid Description
Although the kinetic model describes the physics accurately, it is more complex (and in the case of numerical simulations, more computationally intensive) than the fluid model. The hybrid model is a combination of fluid and kinetic models, treating some components of the system as a fluid, and others kinetically.
Gyrokinetic Description
In the gyrokinetic model, which is appropriate to systems with a strong background magnetic field, the kinetic equations are averaged over the fast circular motion of the
gyroradius . This model has been used extensively for simulation oftokamak plasma instabilities (for example, theGYRO andGyrokinetic ElectroMagnetic codes), and more recently in astrophysical applications.References
*cite book | author=Francis F. Chen | title=Introduction to Plasma Physics and Controlled Fusion, 2nd ed | publisher=Springer | year=2006 | id=ISBN 0306413322
*cite book | author=Nicholas Krall and Alvin Trivelpiece | title=Principles of Plasma Physics | publisher=San Francisco Press| year=1986 | id=ISBN 0911302581
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