Bibliography

Integral cross sections for the electron-impact excitation of the b 1 $\Pi$ u, c 3 1 $\Pi$ u, o 3 1 $\Pi$ u, b′ 1 $\Sigma$ u+, c 4′ 1 $\Sigma$ u+, G 3 $\Pi$ u, and F 3 $\Pi$ u states of N 2

Malone, Charles; Johnson, Paul; Liu, Xianming; Ajdari, Bahar; Kanik, Isik; Khakoo, Murtadha;

Published by: Physical Review A      Published on: 06/2012

YEAR: 2012     DOI: 10.1103/PhysRevA.85.062704

Putting Space Physics Data Facility (SPDF) Services to Good Use

Candey, RM; Bilitza, D; Chimiak, R; Cooper, JF; Garcia, LN; Harris, B; Johnson, RC; King, JH; Kovalick, T; Leckner, H; , others;

Published by:       Published on:

YEAR: 2009     DOI:

TIMED Doppler interferometer (TIDI) observations of migrating diurnal and semidiurnal tides

Wu, Qian; Killeen, TL; Ortland, DA; Solomon, SC; Gablehouse, RD; Johnson, RM; Skinner, WR; Niciejewski, RJ; Franke, SJ;

Published by: Journal of atmospheric and solar-terrestrial physics      Published on:

YEAR: 2006     DOI:

Spatial and temporal ion drift variability in the high -latitude F region during southward IMF

The purpose of the following research is to investigate the role and contribution of variability or structure in the ion drift to the overall Joule heating rate during times of southward interplanetary magnetic field (IMF). This investigation is limited to southward IMF because the convection patterns are generally more stable and reproducible than those seen for a northward IMF. This allows us to organize the data according to features of the convection pattern and thus produce results that can be used in model simulations of the ionosphere-thermosphere. The contribution of variability or structure in the ion drift to the overall Joule heating is organized into two parts. The first part focuses on the characteristic spatial structure in the ion drift in the F-region ionosphere and how it relates to the bulk ion flow, the large-scale spatial gradient in the bulk ion flow, and the ion temperature. We consider separately the polar cap and auroral zone during the summer and the winter at dawn and dusk during times of steady southward IMF. The second part of this investigation examines the spatial and temporal variability in the ion drift and its contribution to the total Joule heating rate in the F-region ionosphere in the summer and the winter at all magnetic local times (MLT) that are sampled by our data set. This second investigation includes more data than the first investigation by relaxing the stability conditions for southward IMF as well as allowing weaker southward IMF. These topics are investigated utilizing data from the Dynamics Explorer 2 (DE-2) satellite.

Johnson, Eric;

Published by: ProQuest Dissertations and Theses      Published on:

YEAR: 2005     DOI:

Pure sciences; F region; High-latitude; interplanetary magnetic field; Ion drift; atmosphere; 0725:Atmospheric sciences

Characteristics of ion velocity structure at high latitudes during steady southward interplanetary magnetic field conditions

Johnson, ES; Heelis, RA;

Published by: Journal of Geophysical Research: Space Physics      Published on:

YEAR: 2005     DOI:

Seasonal variations along auroral field lines: Measurements from the Polar spacecraft

Johnson, MT; , Wygant; Cattell, CA; Mozer, FS;

Published by: Geophysical research letters      Published on:

YEAR: 2003     DOI: