Cross Calibration of >16 MeV Proton Measurements From NOAA POES and EUMETSAT MetOp Satellites

Lin, Ruilin; Zhang, Jichun; Redmon, Robert J.; Ni, Binbin; Liu, Siqing; Zhang, Xiaoxin; Shi, Liqin; Gong, Jiancun; Chen, Dong; Cheng, Yonghong; Wang, Hong; Cao, Yong

doi:10.1029/2018ja026076

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i

Cross Calibration of >16 MeV Proton Measurements From NOAA POES and EUMETSAT MetOp Satellites

2019
By Lin, Ruilin ; Zhang, Jichun ; Redmon, Robert J. ; ...
Source: Journal of Geophysical Research: Space Physics, 124(8), 6906-6926

[PDF-2.64 MB]

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Journal Title:

Journal of Geophysical Research: Space Physics
Personal Author:

Lin, Ruilin ; Zhang, Jichun ; Redmon, Robert J. ; Ni, Binbin ; Liu, Siqing ; ... More +

Lin, Ruilin ; Zhang, Jichun ; Redmon, Robert J. ; Ni, Binbin ; Liu, Siqing ; Zhang, Xiaoxin ; Shi, Liqin ; Gong, Jiancun ; Chen, Dong ; Cheng, Yonghong ; Wang, Hong ; Cao, Yong Less -
NOAA Program & Office:

NESDIS (National Environmental Satellite, Data, and Information Service) ; NCEI (National Centers for Environmental Information)

NESDIS (National Environmental Satellite, Data, and Information Service) ; NCEI (National Centers for Environmental Information) Less -
Description:

A long‐term data set of energetic proton omnidirectional integral fluxes with an 8‐s resolution from National Oceanic and Atmospheric Administration (NOAA) Polar Operational Environmental Satellites (POES) and EUMETSAT MetOp satellites from 1978 to 2014 has been investigated comprehensively to capture the data bifurcations, calibration inconsistency, and some erroneous data. There are two categories of the data bifurcations. The upper and lower branches of both bifurcations can be clearly separated by magnetic local time or by magnetic latitude. The calibration inconsistency of POES and MetOp proton omnidirectional integral fluxes (>16 MeV) is solved by fitting the data from each pair of two satellites using a third‐degree polynomial function. The fitted curve is almost independent of Lm, B/B0, and time in the valid range. By these fitted functions, the >16 MeV proton omnidirectional integral fluxes from other POES and MetOp satellites are recalibrated to the NOAA‐15 measurements that are adopted as the reference standard. Analyses of the recalibrated data at the geomagnetic equator for about 3.5 solar cycles indicate that the maximal and minimal yearly values of >16 MeV proton omnidirectional integral fluxes are in 1987 and in 2002, respectively. By comparisons with the AP8 model predictions, the ratios of the observations in 1987 (in 2002) to the AP8 MIN (AP8 MAX) predictions are mainly within 0.5‐3 (0.1‐2), showing a dependence on Lm and B/B0.
Keywords:

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Geophysics Space And Planetary Science
Source:

Journal of Geophysical Research: Space Physics, 124(8), 6906-6926
DOI:

https://doi.org/10.1029/2018ja026076
ISSN:

2169-9380;2169-9402;
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American Geophysical Union (AGU)
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Journal Article
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urn:sha256:40d79f554930ee1f244491a7a4b1331b5589cc4ba9b083bdd157fc4c74653bac
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https://repository.library.noaa.gov/view/noaa/60170/noaa_60170_DS1.pdf
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Cross Calibration of >16 MeV Proton Measurements From NOAA POES and EUMETSAT MetOp Satellites

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