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Observation and modeling of the South Atlantic Anomaly in low Earth orbit using photometric instrument data
Author(s) -
Schaefer R. K.,
Paxton L. J.,
Selby C.,
Ogorzalek B.,
Romeo G.,
Wolven B.,
Hsieh S.Y.
Publication year - 2016
Publication title -
space weather
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.254
H-Index - 56
ISSN - 1542-7390
DOI - 10.1002/2016sw001371
Subject(s) - south atlantic anomaly , physics , solar minimum , van allen radiation belt , solar cycle 23 , longitude , solar maximum , solar cycle , anomaly (physics) , flux (metallurgy) , latitude , atmospheric sciences , altitude (triangle) , astronomy , magnetosphere , plasma , solar wind , chemistry , geometry , mathematics , organic chemistry , condensed matter physics , quantum mechanics
Abstract We present a new model of the South Atlantic Anomaly (SAA) particle flux intensity for low Earth orbit, based a new data set, i.e., particle noise pulses in an ultraviolet photomultiplier. The data set is unique in that it provides daily monitoring of the strength of the particle radiation at a fixed altitude and local time and provides a consistent set of observations across the deep solar minimum. The observations show the following: (1) a development over the decline of solar cycle 23 into a deep solar minimum and the subsequent rise of cycle 24, (2) the slow motion drift of the SAA centroid with time at the rate—longitude drift =0.36 ± 0.06°W/yr, and latitude drift =0.16 ± 0.09°N/yr, (3) a higher particle flux at solar minimum than at solar maximum, and (4) a yearly cyclical variation. These particle rates are deduced from electric noise pulses generated in the photometers when an energetic charged particle hits the detector and causes an electron to be liberated from the detector material. The model described here can be used to monitor and even spatially predict the changes in particle fluxes seen by instruments in contemporaneous low Earth orbits through the SAA.

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