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Ionospheric conductance distribution and MHD wave structure: observation and model (1998)

Budnik, F. ; Stellmacher, M. ; Glassmeier, K.-H. ; [et al.]

Springer

Annales geophysicae 16 (1998), S. 140-147

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ISSN: 0992-7689

Keywords: Ionosphere ; (Ionosphere–magnetosphere interactions) ; Magnetospheric physics ; Magnetosphere – ionosphere interactions ; MHD waves and instabilities

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract The ionosphere influences magnetohydrodynamic waves in the magnetosphere by damping because of Joule heating and by varying the wave structure itself. There are different eigenvalues and eigensolutions of the three dimensional toroidal wave equation if the height integrated Pedersen conductivity exceeds a critical value, namely the wave conductance of the magnetosphere. As a result a jump in frequency can be observed in ULF pulsation records. This effect mainly occurs in regions with gradients in the Pedersen conductances, as in the auroral oval or the dawn and dusk areas. A pulsation event recorded by the geostationary GOES-6 satellite is presented. We explain the observed change in frequency as a change in the wave structure while crossing the terminator. Furthermore, selected results of numerical simulations in a dipole magnetosphere with realistic ionospheric conditions are discussed. These are in good agreement with the observational data.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s00585-998-0140-8

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Nongyrotropic particle distributions in space plasmas (1999)

Motschmann, U. ; Glassmeier, K. H. ; Brinca, A. L.

Springer

Annales geophysicae 17 (1999), S. 613-622

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ISSN: 0992-7689

Keywords: Interplanetary physics (plasma waves and turbulence) ; Ionosphere (plasma waves and instabilities) ; Magnetospheric physics (plasma waves and instabilities)

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract In nonstationary, strong inhomogeneous or open plasmas particle orbits are rather complicated. If the nonstationary time scale is smaller than the gyration period, if the inhomogeneity scale is smaller than the gyration radius, i.e. at magnetic plasma boundaries, or if the plasma has sources and sinks in phase space, then nongyrotropic distribution functions occur. The stability of such plasma configurations is studied in the framework of linear dispersion theory. In an open plasma nongyrotropy drives unstable waves parallel and perpendicular to the background magnetic field, whereas in the gyrotropic limit the plasma is stable. In nonstationary plasmas nongyrotropy drives perpendicular unstable waves only. Temporal modulation couples a seed mode with its side lobes and thus it renders unstable wave growth more difficult. As an example of an inhomogeneous plasma a magnetic halfspace is discussed. In a layer with thickness of the thermal proton gyroradius a nongyrotropic distribution is formed which may excite unstable parallel and perpendicular propagating waves.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s00585-999-0613-4

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