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On the Estimation of the Ratio of ULF Wave Electric Fields in Space and the Magnetic Fields at the Ground
Author(s) -
Warden L. J.,
Waters C. L.,
Sciffer M. D.,
Hull A. J.
Publication year - 2021
Publication title -
journal of geophysical research: space physics
Language(s) - English
Resource type - Journals
eISSN - 2169-9402
pISSN - 2169-9380
DOI - 10.1029/2020ja029052
Subject(s) - amplitude , physics , computational physics , waveform , electric field , spacecraft , magnetometer , magnetosphere , extremely low frequency , series (stratigraphy) , magnetic field , polar , nuclear magnetic resonance , optics , voltage , geology , paleontology , quantum mechanics , astronomy
Three new methods for estimating a ratio of the ultralow frequency (ULF; 1–100 mHz) wave equatorial electric field amplitude in the Earth's magnetosphere to ground magnetic field amplitudes for field line resonances (FLR) are described. These methods use ratios of the time series extrema, ratios of the envelope waveform and the ratio of the spectral amplitude at the FLR frequency. These methods were applied to four ULF resonance intervals; three detected by the Van Allen Probe A spacecraft and one detected by the POLAR spacecraft. The intervals were conjoined with the CARISMA and IMAGE ground magnetometer arrays. The spectral ratio results for the Van Allen Probe intervals were approximately twice to three times the ratios estimated from the two time series based methods. The POLAR interval showed similar values across all three methods. The differences are attributed to broadband frequency signals that modify the time series amplitudes, while the spectral method avoids these off‐resonant frequencies. Based on the results of this study, a spectral based method for calculating the ratio at the FLR frequency is best.

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