Estimation of initial auroral proton energy fluxes from Doppler profiles |
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Affiliation: | 1. MLR Key Laboratory of Metallogeny and Mineral Assessment, Institute of Mineral Resources, Chinese Academy of Geological Sciences, Beijing 100037, China;2. China Deep Exploration Center-SinoProbe Center, Chinese Academy of Geological Sciences, Beijing 100037, China;3. Beijing Bureau of Geology and Mineral Exploration and Development, Beijing 100195, China;4. Beijing Institute of geological survey, Beijing 102206, China;1. Carpathian Branch of Institute of Geophysics, National Academy of Science of Ukraine, Lviv, Ukraine;2. CNRS-UMR6524-Observatoire de Physique, Clermont-Fd, France;3. PHIVOLCS, Quezon City, Philippines |
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Abstract: | An energetic auroral proton entering the atmosphere will, by charge exchange in collisions with atmospheric constituents, alternate between being a proton H+ and a neutral hydrogen atom H. This study provides a procedure to evaluate the auroral Doppler shifted and broadened hydrogen Balmer profile as a function of initial energy, flux, pitch angle and view angle relative to the geomagnetic field. The differential proton energy flux entering the atmosphere is deduced using ground-based measurements of Hα and Hβ from Nordlysstasjonen in Adventdalen, Longyearbyen. The main assumptions are that the geomagnetic field lines are: parallel and vertical, and that the pitch angle of the H/H+-particle is preserved in collisions with atmospheric constituents before being thermalized. This numerical method estimates the fate of the auroral H/H+-particle in the atmosphere, and from measured Doppler profiles the corresponding incoming particle flux can be deduced. Optimization of the method will continue through extensive use of observational data. |
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