In plasma physics, an upper hybrid oscillation is a mode of oscillation of a magnetized plasma. It consists of a longitudinal motion of the electrons perpendicular to the magnetic field with the dispersion relation
\omega2=
| 2 | |
| \omega | |
| pe |
+
| 2 | |
| \omega | |
| ce |
+3k2
| 2 | |
| v | |
| e,th |
\omegape=(4\pi
| 1/2 | |
| n | |
| e) |
\omegace=eB/{mec}
This oscillation is closely related to the plasma oscillation found in unmagnetized plasmas or parallel to the magnetic field, where the ωpe term arises from the electrostatic Coulomb restoring force and the 3k²ve,th² term arises from the restoring force of electron pressure. In the upper hybrid oscillation there is an additional restoring force due to the Lorentz force. Consider a plane wave where all perturbed quantities vary as exp(i(kx-ωt)). If the displacement in the direction of propagation is δx, then
vx=-i\omega\delta
fy=nevxBz/c=-i\omega(neBz/c)\delta
vy=-fy/i\omeganm=(eBz/mc)\delta
fx=-nevyBz/c=
| 2\delta | |
| -(nm)(eB | |
| z/mc) |
ax=
| 2\delta | |
| -\omega | |
| ce |
The frequency of long wavelength oscillations is a "hybrid", or mix, of the electron plasma and electron cyclotron frequencies,
| 2 | |
| \omega | |
| h |
=
| 2 | |
| \omega | |
| pe |
+
| 2 | |
| \omega | |
| ce |
For propagation at angles oblique to the magnetic field, two modes exist simultaneously. If the plasma frequency is higher than the cyclotron frequency, then the upper hybrid oscillation transforms continuously into the plasma oscillation. The frequency of the other mode varies between the cyclotron frequency and zero. Otherwise, the frequency of the mode related to the upper hybrid oscillation remains above the cyclotron frequency, and the mode related to the plasma oscillation remains below the plasma frequency. In particular, the frequencies are given by
\omega2=
| 2\left( | |
| (1/2)\omega | |
| h |
1\pm\sqrt{ 1-\left(
| \cos\theta | |||||||||
|
\right)2 } \right)
To derive the dispersion relation of ion cyclotron waves in quantum plasma we use quantum plasma parameters such as fermi temperature,pressure and compensating the debroglie wavelength in quantum plasma.