First ground-based optical analysis of H ? Doppler profiles close to local noon in the cusp

International audience Observations of hydrogen emissions along the magnetic zenith at Longyearbyen (78.2 N, 15.8 E geographic) are used to investigate the energy and source of protons precipitating into the high latitude region. During the hours around local solar noon (11:00 UT), measurements of t...

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Bibliographic Details
Main Authors: Robertson, S. C., Lanchester, B. S., Galand, M., Lummerzheim, D., Stockton-Chalk, A. B., Aylward, A. D., Furniss, I., Baumgardner, J.
Other Authors: Space Environment Physics, Atmospheric Physics Laboratory UCL London, University College of London London (UCL), Space and Atmospheric Physics Group London, Blackett Laboratory, Imperial College London-Imperial College London, Geophysical Institute, Center for Space Physics Boston (CSP), Boston University Boston (BU)
Format: Article in Journal/Newspaper
Language:English
Published: HAL CCSD 2006
Subjects:
[SDU.OCEAN]Sciences of the Universe [physics]/Ocean
Atmosphere
[SDU.STU]Sciences of the Universe [physics]/Earth Sciences
Svalbard
Longyearbyen
Online Access:https://hal.science/hal-00318183
https://hal.science/hal-00318183/document
https://hal.science/hal-00318183/file/angeo-24-2543-2006.pdf
Description
Summary:International audience Observations of hydrogen emissions along the magnetic zenith at Longyearbyen (78.2 N, 15.8 E geographic) are used to investigate the energy and source of protons precipitating into the high latitude region. During the hours around local solar noon (11:00 UT), measurements of the hydrogen Balmer ? line are severely affected by sunlight, such that most data until now have been disregarded during these times. Here we use a simple technique to subtract sunlight contamination from such spectral data. An example is shown in which the removal of twilight contamination reveals a brightening of H ? aurora over Svalbard on 27 November 2000 between 08:00 UT and 10:00 UT, which is centred on magnetic noon (08:48 UT). These data were measured by the High Throughput Imaging Echelle Spectrograph (HiTIES), one instrument on the Southampton-UCL Spectrographic Imaging Facility (SIF). Data from the IMAGE satellite confirms the location of a cusp "spot" over Svalbard at the time of the ground-based measurements, which moved in response to changes in the IMF conditions. A coincident pass of the DMSP F12 satellite provided input spectra for modelling studies of the H ? profiles, which confirm that the method for removing the twilight contamination is robust. The results described here are the first ground-based optical measurements of H ? Doppler profiles from the cusp region close to local solar noon, when scattered sunlight swamps the raw data.

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