Spitzer resistivity
The Spitzer resistivity, also called 'Spitzer-Harm resistivity', is an expression describing the electrical resistance in a plasma, which was first formulated by Lyman Spitzer in 1950. The Spitzer resistivity of a plasma decreases in proportion to the electron temperature as.
The inverse of the Spitzer resistivity is known as the Spitzer conductivity.
Formulation
The Spitzer resistivity is a classical model of electrical resistivity based upon electron-ion collisions and it is commonly used in plasma physics. The Spitzer resistivity is given by:where is the ionization of nuclei, is the electron charge, is the electron mass, is the Coulomb logarithm, is the electric permittivity of free space, is the Boltzmann constant, and is the electron temperature.
One way to convert the of a plasma column to its resistance is to multiply by the length of the column and divide by its area.
In CGS units, the expression is given by:
This formulation assumes a Maxwellian distribution, and the prediction is more accurately determined by
where the factor and the classical approximation of the dependence is:
In the presence of a strong magnetic field, there are two resistivities corresponding to the current perpendicular and parallel to the magnetic field. The transverse Spitzer resistivity is given by, where the rotation keeps the distribution Maxwellian, effectively removing the factor of.
The parallel current is equivalent to the unmagnetized case,.