2003
DOI: 10.1029/2002jd002753
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Modeling the plasma response to small‐scale aerosol particle perturbations in the mesopause region

Abstract: [1] We have developed a numerical model that solves the time-dependent, onedimensional, coupled continuity and momentum equations for an arbitrary number of charged and neutral particle species. The model includes production and loss of particles due to ionization, recombination, and attachment of ions and electrons by heavy aerosol particles, and transport due to gravity and multipolar diffusion. The model is used to study the response of the mesopause plasma to small-scale, aerosol particle density perturbat… Show more

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Cited by 76 publications
(127 citation statements)
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“…A concentration of charged dust will influence the ion and electron density, so that if the dust is charged negatively, there will be a depletion of electrons and an increase of ions inside the dust concentration, compared to the values outside it. As long as the dust concentration or clumping exists and the dust particles are charged, the effect on the ion and electron density will be present (Havnes et al, 1984(Havnes et al, , 1990(Havnes et al, , 2003Lie-Svendsen et al, 2003). If the photoelectric effect is not important for dust charging, the dust particles and the dust clumps will be charged negatively.…”
Section: The Electron Heating As Deduced From the Overshoot Charactermentioning
confidence: 99%
“…A concentration of charged dust will influence the ion and electron density, so that if the dust is charged negatively, there will be a depletion of electrons and an increase of ions inside the dust concentration, compared to the values outside it. As long as the dust concentration or clumping exists and the dust particles are charged, the effect on the ion and electron density will be present (Havnes et al, 1984(Havnes et al, , 1990(Havnes et al, , 2003Lie-Svendsen et al, 2003). If the photoelectric effect is not important for dust charging, the dust particles and the dust clumps will be charged negatively.…”
Section: The Electron Heating As Deduced From the Overshoot Charactermentioning
confidence: 99%
“…As pointed out in the introduction, the new PMSE theory by Rapp and Lübken (2003) predicts an anticorrelation of electrons and negatively charged particles (see also Lie-Svendsen et al, 2003).…”
Section: Small Scale Plasma Variationsmentioning
confidence: 99%
“…Lübken et al, 2002). The first breaktrough in the understanding of PMSE was achieved by Kelley et al (1987) who proposed that the electrons at the polar summer mesopause are low diffusivity tracers due to the presence of large and heavy positive ions such as water cluster ions. If the tracer diffusivity is significantly smaller than the viscosity of air, the fluctuations in the tracer field can extend to much smaller scales than in the neutral gas (Batchelor, 1959).…”
Section: Introductionmentioning
confidence: 99%
“…The numerical model (see Lie-Svendsen et al, 2003) solves the coupled, time-dependent fluid continuity and momentum equations for an arbitrary number of ions and (neutral and charged) aerosol particles, in addition to electrons, in one spatial dimension. Collisions are assumed to be sufficiently frequent to keep all species at the neutral air temperature T , which is measured with the CONE instrument.…”
Section: The Modelmentioning
confidence: 99%