Description Similar to Figure 2 but for protons in each of six MEPED channels with two corresponding color‐coded energy intervals.
Article Title: POES/MEPED Angular Response Functions and the Precipitating Radiation Belt Electron Flux
Publication Title: Journal of Geophysical Research: Space Physics

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Description Similar to Figure 6 but for data taken from 3 to 9 hr UT on 15 October 2012. Model simulations of each data point are also included for the 0° (blue) and 90° (green) telescopes.
Article Title: POES/MEPED Angular Response Functions and the Precipitating Radiation Belt Electron Flux
Publication Title: Journal of Geophysical Research: Space Physics

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Description (a–d) Counting rate data from each of the four electron channels on six operational satellites, coded by symbol type, taken at L = 4 from 6 to 12 hr UT on 13 October 2012, versus dipole longitude....
Article Title: POES/MEPED Angular Response Functions and the Precipitating Radiation Belt Electron Flux
Publication Title: Journal of Geophysical Research: Space Physics

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Description Model omnidirectional electron intensity in the BLC or, apart from backscattering, precipitating electron flux, versus dipole longitude and color coded by energy, at L = 4 for the high‐ and...
Article Title: POES/MEPED Angular Response Functions and the Precipitating Radiation Belt Electron Flux
Publication Title: Journal of Geophysical Research: Space Physics

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Description Similar to Figure 7 but for data taken from 18 to 24 hr UT on 16 October 2012.
Article Title: POES/MEPED Angular Response Functions and the Precipitating Radiation Belt Electron Flux
Publication Title: Journal of Geophysical Research: Space Physics

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Description Model electron local pitch‐angle distributions color‐coded by energy (top row), and corresponding counting rate distributions in pitch angle (middle row) and energy (bottom row) color coded by...
Article Title: POES/MEPED Angular Response Functions and the Precipitating Radiation Belt Electron Flux
Publication Title: Journal of Geophysical Research: Space Physics

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Description (a) Counting rate data from channel E2 of the NOAA‐19 satellite 0° (blue) and 90° (red) telescopes versus day of year in 2012. Data are from the closest location to L = 4 and 320° longitude during...
Article Title: POES/MEPED Angular Response Functions and the Precipitating Radiation Belt Electron Flux
Publication Title: Journal of Geophysical Research: Space Physics

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Description POES/MEPED Angular Response Functions and the Precipitating Radiation Belt Electron FluxSELESNICK et al. - Journal of Geophysical Research: Space PhysicsJ. Geophys. Res. Space Physics vol. 125,...
Article Title: POES/MEPED Angular Response Functions and the Precipitating Radiation Belt Electron Flux
Publication Title: Journal of Geophysical Research: Space Physics

Description Model color‐coded electron intensity as a function of equatorial pitch angle and dipole longitude, with selected values of energy and the diffusion coefficients at L=4. The BLC angle is indicated...
Article Title: POES/MEPED Angular Response Functions and the Precipitating Radiation Belt Electron Flux
Publication Title: Journal of Geophysical Research: Space Physics

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Description Angular response functions, aik, for each of four MEPED electron channels and three corresponding color‐coded energy intervals, versus incident angle θt relative to the telescope axis, from Geant4...
Article Title: POES/MEPED Angular Response Functions and the Precipitating Radiation Belt Electron Flux
Publication Title: Journal of Geophysical Research: Space Physics

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Description Geometry factors Gi, or energy response functions, color‐coded for each of (a) the electron response of the three MEPED electron channels, E1, E2, and E3, and the P6 proton channel and (b) the...
Article Title: POES/MEPED Angular Response Functions and the Precipitating Radiation Belt Electron Flux
Publication Title: Journal of Geophysical Research: Space Physics

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