Physics:Drift waves

In plasma physics, a drift wave is a type of collective excitation that is driven by a pressure gradient within a magnetised plasma, which can be destabilised by differences between ion and electron motion (then known as drift-wave instability or drift instability). The equations which describe these waves possess a number of solutions, including ion-acoustic solitary waves,^[1] and are roughly analogous to modons.^[2]

The drift wave typically propagates across the pressure gradient and is perpendicular to the magnetic field. It can occur in relatively simple configurations such as in a column of plasma with a non-uniform density but a straight magnetic field.^[3] Drift wave turbulence is responsible for the transport of particles, energy and momentum across magnetic field lines.^[4]

The characteristic frequency associated with drift waves involving electron flow^[5] is given by $${\displaystyle {\omega }^{*}=k_{\perp }(-\frac{k_B{T}_e}{e{B}_0}\frac{\mathrm{\nabla }{n}_0}{n_0}),}$$ where ${\displaystyle k_{\perp }}$ is the wavenumber perpendicular to the pressure gradient of the plasma, ${\displaystyle k_B}$ is the Boltzmann constant, ${\displaystyle T_e}$ is the electron temperature, ${\displaystyle e}$ is the elementary charge, ${\displaystyle B_0}$ is the background magnetic field and ${\displaystyle \mathrm{\nabla }{n}_0}$ is the number density gradient of the plasma.

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