Linear Mode Conversion of Langmuir to Electromagnetic Waves at Oblique Density Inhomogeneities

Details Linear Mode Conversion of Langmuir to Electromagnetic Waves at Oblique Density Inhomogeneities Linear Mode Conversion of Langmuir to Electromagnetic Waves at Oblique Density Inhomogeneities

Dec 2007

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007agufmsh23a1160c&link_type=abstract

American Geophysical Union, Fall Meeting 2007, abstract #SH23A-1160

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2471 Plasma Waves And Instabilities (2772), 2772 Plasma Waves And Instabilities (2471), 6984 Waves In Plasma (7867), 7534 Radio Emissions, 7847 Radiation Processes

Scientific paper

Linear mode conversion (LMC) of waves from one mode to another at constant frequency can occur in plasma irregularities because the natural modes in inhomogeneous plasmas need not be distinct but instead can be connected for restricted ranges of wave vectors k and frequencies f. Previous work suggests that the electrostatic (ES) Langmuir/z mode and free-space electromagnetic (EM) modes have two "radio windows", with multiple possible applications to solar radio bursts, planetary continuum radiation, auroral radio emissions, and ionospheric modification events. The first radio window is for Langmuir/z waves just above the local plasma frequency (fpe) with k almost aligned with the ambient magnetic field B0 and the density gradient \nabla n. The second involves upper hybrid/z waves with f ≍ fUH, the upper hybrid frequency, and k almost perpendicular to B0 and \nabla n. Here we use numerical simulations of the warm plasma fluid equations to investigate the detailed characteristics of LMC as functions of the outgoing EM o and x modes, k, the angles φ between B0 and \nabla N, B0, and the length scale of the density irregularity L. These results extend the recent demonstration that LMC produces both o and x-mode radiation when φ = 0 [Kim et al., Phys. Rev. Lett., 99, 015003, 2007], contrary to previous expectations that only the o mode is produced. Our new results include: (1) Only one radio window exists, smoothly linking the previous two windows as φ, f and k change. (2) Both o and x-mode radiation are produced in the unmagnetized to moderately magnetized regimes, as found for the φ = 0 case. (3) Less than 10% of the incident ES energy is transformed into EM radiation. (4) In weakly magnetized situations almost equal amounts of o and x-mode radiation are produced, but only the o mode is produced for large enough B0. Applications of these results to natural solar and planetary emissions and to ionospheric modification experiments are also explored.

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