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Seasonal and Local Time Variation in the Observed Peak of the Meteor Altitude Distributions by Meteor Radars

Dawkins, E.C.M.; Janches, D.; Stober, G.; Carrillo‐Sánchez, J.D.; Lieberman, R.S.; Jacobi, C.; Moffat-Griffin, T. ORCID: https://orcid.org/0000-0002-9670-6715; Mitchell, N.J.; Cobbett, N.; Batista, P. P.; Andrioli, V. F.; Buriti, R. A.; Murphy, D. J.; Kero, J.; Gulbrandsen, N.; Tsutsumi, M.; Kozlovsky, A.; Lester, M.; Kim, J.‐H.; Lee, C.; Liu, A.; Fuller, B.; O’Connor, D.; Palo, S. E.; Taylor, M. J.; Marino, J.; Rainville, N.. 2024 Seasonal and Local Time Variation in the Observed Peak of the Meteor Altitude Distributions by Meteor Radars. Journal of Geophysical Research: Atmospheres, 129 (21), e2024JD040978. 17, pp. 10.1029/2024JD040978

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Abstract/Summary

Meteoroids of sub-milligram sizes burn up high in the Earth's atmosphere and cause streaks of plasma trails detectable by meteor radars. The altitude at which these trails, or meteors, form depends on a number of factors including atmospheric density and the astronomical source populations from which these meteoroids originate. A previous study has shown that the altitude of these meteors is affected by long-term linear trends and the 11-year solar cycle related to changes in our atmosphere. In this work, we examine how shorter diurnal and seasonal variations in the altitude distribution of meteors are dependent on the geographical location at which the measurements are performed. We use meteoroid altitude data from 18 independent meteor radar stations at a broad range of latitudes and investigate whether there are local time (LT) and seasonal variations in the altitude of the peak meteor height, defined as the majority detection altitude of all meteors within a certain period, which differ from those expected purely from the variation in the visibility of their astronomical source. We find a consistent LT and seasonal response for the Northern Hemisphere locations regardless of latitude. However, the Southern Hemisphere locations exhibit much greater LT and seasonal variation. In particular, we find a complex response in the four stations located within the Southern Andes region, which indicates that the strong dynamical atmospheric activity, such as the gravity waves prevalent here, disrupts, and masks the seasonality and dependence on the astronomical sources.

Item Type: Publication - Article
Digital Object Identifier (DOI): 10.1029/2024JD040978
ISSN: 2169-897X
Additional Keywords: meteor, altitude, mesosphere, meteor radar, gravity waves
Date made live: 08 Nov 2024 10:24 +0 (UTC)
URI: https://nora.nerc.ac.uk/id/eprint/538345

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