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Found 10 entries in the Bibliography.
Showing entries from 1 through 10
2006 |
Global thermosphere-ionosphere response to onset of 20 November 2003 magnetic storm
Crowley, G.; Hackert, C.; Meier, R.; Strickland, D.; Paxton, L.; Pi, X.; Mannucci, A.; Christensen, A.; Morrison, D.; Bust, G.; Roble, R.; Curtis, N.; Wene, G.; Published by: Journal of Geophysical Research Published on: Jan-01-2006 YEAR: 2006   DOI: 10.1029/2005JA011518 |
Effect of IMF By on thermospheric composition at high and middle latitudes: 2. Data comparisons
Immel, Thomas; Crowley, Geoff; Hackert, Chris; Craven, John; Roble, Ray; Published by: Journal of Geophysical Research: Space Physics Published on: |
Effect of IMF BY on thermospheric composition at high and middle latitudes: 1. Numerical experiments Magnetic storms and their effects on the thermosphere and ionosphere have been studied for many years, yet there are many aspects of the thermospheric and ionospheric responses that are not understood. The purpose of this paper is to show how the high-latitude composition depends on the sign of the IMF BY component, using controlled simulations with a global first principles model. Because the high-latitude convection and neutral wind systems are strongly controlled by the IMF BY component, it seems likely that the compositi ... Crowley, G.; Immel, T.; Hackert, C.; Craven, J.; Roble, R.; Published by: Journal of Geophysical Research: Space Physics Published on: YEAR: 2006   DOI: https://doi.org/10.1029/2005JA011371 |
2005 |
The NASA TIMED/GUVI experiment obtained unprecedented far ultraviolet images of thermospheric composition and temperature during the intense geomagnetic storm on 20\textendash21 November 2003. Geographic maps of the atomic oxygen to molecular nitrogen column density ratio show severe depletions that extend to the equator near the peak of the storm. This ratio is a key indicator of how the thermospheric composition is disrupted at high latitudes and how the perturbed air moves globally as a result of dynamical forcing. For ... Meier, R.; Crowley, G.; Strickland, D.; Christensen, A.; Paxton, L.; Morrison, D.; Hackert, C.; Published by: Journal of Geophysical Research Published on: 09/2005 YEAR: 2005   DOI: 10.1029/2004JA010990 dayglow; geomagnetic storm; GUVI; remote sensing; thermospheric composition; TIMED |
Thermospheric density structures over the polar regions observed with CHAMP
Schlegel, Kristian; Lühr, Hermann; St-Maurice, J-P; Crowley, Geoff; Hackert, Chris; Published by: Published on: |
Meier, RR; Crowley, G; Strickland, DJ; Christensen, AB; Paxton, LJ; Morrison, D; Hackert, CL; Published by: Journal of Geophysical Research-Part A-Space Physics Published on: |
Global Thermosphere-Ionosphere Response To Storms
Crowley, G; Hackert, C; Meier, R; Paxton, L; Strickland, DJ; Zhang, Y; Pi, X; Manucci, A; Christensen, A; Morrison, D; Published by: Published on: |
Global Thermosphere-Ionosphere Response to Geomagnetic Storms
Crowley, G.; Hackert, C.; Meier, R.; Strickland, D.; Paxton, L.; Pi, X.; Manucci, A.; Christensen, A.; Morrison, D.; Bust, G.; Roble, R.; Curtis, N.; Published by: Published on: |
2004 |
Global Thermosphere-Ionosphere Response to the October-November 2003 Storms
Bronn, J; Crowley, G; Hackert, C; Meier, R; Paxton, L; Strickland, D; Christensen, A; Morrison, D; Zhang, Y; Straus, P; , others; Published by: Published on: |
2003 |
Space Weather Effects of the April 15-23 2002 Geomagnetic Storm
Hackert, C; Crowley, G; Paxton, L; Christensen, A; Kil, Y; Zhang, Y; Morrison, D; Goncharenko, L; Makela, J; Sahai, Y; , others; Published by: Published on: |
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