ISSN:
1090-6487
Keywords:
52.20.−j
Source:
Springer Online Journal Archives 1860-2000
Topics:
Physics
Notes:
Abstract A new model of electronic vortices in plasma is studied. The model assumes that the profile of the Lagrangian invariant I, equal to the ratio I=Ω/n of the electronic vorticity to the electron density, is given. The proposed approach takes into account the magnetic Debye scale r B ≃B/4πen, which leads to breakdown of plasma quasineutrality. It is shown that the Abrikosov singular model cannot be used to describe electron vortices in plasmas because of the fundamental limitation on the electron vorticity on the axis of a vortex in a plasma. Analysis of the equations shows that in the model considered for the electronic vorticity, the total magnetic flux decreases when the size r 0 of the region in which I≠0 becomes less than c/ωpe (ωpe is the electron plasma frequency). For ω pe r 0/c≪1, an electronic vortex is formed in which the magnetic flux decreases as r 0 2 and the inertial component predominates in the electronic vorticity. The structure arising as ω pe r 0/c⇒0 is a narrow “hole” in the electron density, which can be identified from the spectrum of electromagnetic waves in this region.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1134/1.567714