Atmospheric Ionization Module Osnabruck (AIMOS): A 3-D model to determine atmospheric ionization by energetic charged particles from different populations
Autor(en): | Wissing, J. M. Kallenrode, M. -B. |
Stichwörter: | Astronomy & Astrophysics; ELECTRONS; SIMULATION; SOLAR PROTON EVENTS | Erscheinungsdatum: | 2009 | Herausgeber: | AMER GEOPHYSICAL UNION | Journal: | JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS | Volumen: | 114 | Zusammenfassung: | We present a 3-D numerical model of atmospheric ionization due to precipitating particles with high spatial resolution. The Atmospheric Ionization Model Osnabruck (AIMOS) consists of two parts: a GEANT4-based Monte Carlo simulation and a sorting algorithm to assign observations from two polar-orbiting satellites to horizontal precipitation cells, depending on geomagnetic activity. The main results are as follows: 1) the sorting algorithm and thus the 3-D mapping of particle fluxes works reasonably well; (2) ionization rates are in good agreement with the ones from earlier models; (3) during quiet times, the major contribution to ionospheric ionization is from electrons both in the polar cap (solar electrons) as well as in the auroral oval (magnetospheric electrons) with the ionization in the auroral oval exceeding that in the polar cap; (4) during solar particle events the dominant effect in the polar cap in the stratosphere and mesosphere is from solar protons although solar electrons can contribute up to 30% to the ionization; (5) during strong shocks following a solar particle event, in the auroral oval magnetospheric electrons and protons lead to ionization rates of up to some 10% of the ones of solar particles; and (6) independent of particle source and precipitation site, in general, ionization by electrons is more important in the thermosphere. |
ISSN: | 21699380 | DOI: | 10.1029/2008JA013884 |
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geprüft am 01.06.2024