S
Scott L. England
Researcher at Virginia Tech
Publications - 123
Citations - 4569
Scott L. England is an academic researcher from Virginia Tech. The author has contributed to research in topics: Thermosphere & Ionosphere. The author has an hindex of 29, co-authored 99 publications receiving 3242 citations. Previous affiliations of Scott L. England include University of California & University of Leicester.
Papers
More filters
Journal ArticleDOI
Control of equatorial ionospheric morphology by atmospheric tides
Thomas J. Immel,Eiichi Sagawa,Scott L. England,S. B. Henderson,Maura E. Hagan,Stephen B. Mende,Harald U. Frey,Charles Swenson,Larry J. Paxton +8 more
TL;DR: Immel et al. as discussed by the authors showed that ionospheric densities vary with the strength of nonmigrating, diurnal atmospheric tides that are, in turn, driven mainly by weather in the tropics.
Journal ArticleDOI
Longitudinal variation of the E-region electric fields caused by atmospheric tides
TL;DR: In this article, the post-sunset EIA made by the IMAGE and TIMED satellites are compared with CHAMP, Orsted and SAC-C observations of the noontime equatorial electrojet (EEJ).
Journal ArticleDOI
Loss of the Martian atmosphere to space: Present-day loss rates determined from MAVEN observations and integrated loss through time
Bruce M. Jakosky,David Brain,Michael Chaffin,Shannon Curry,Justin Deighan,Joseph M. Grebowsky,Jasper Halekas,François Leblanc,Robert Lillis,Janet G. Luhmann,Laila Andersson,Nicolas André,David Andrews,Darren Baird,Daniel N. Baker,Jared Bell,Mehdi Benna,Dolon Bhattacharyya,Stephen W. Bougher,C. F. Bowers,Phillip C. Chamberlin,Jean-Yves Chaufray,John Clarke,Glyn Collinson,Michael R. Combi,John E. P. Connerney,Kyle Connour,J. Correira,Kyle Crabb,F. J. Crary,Thomas E. Cravens,Matteo Crismani,G. T. Delory,R. M. Dewey,Gina A. DiBraccio,Chuanfei Dong,Yaxue Dong,P. Dunn,Hilary Egan,Meredith Elrod,Scott L. England,Frank Eparvier,Robert E. Ergun,Anders Eriksson,T. M. Esman,Jared Espley,Scott Evans,K. Fallows,Xiaohua Fang,Matthew Fillingim,Casey L. Flynn,A. Fogle,Christopher M. Fowler,Jane L. Fox,Masaki Fujimoto,Philippe Garnier,Zachary Girazian,Hannes Groeller,J. R. Gruesbeck,O. Q. Hamil,K. G. Hanley,Takuya Hara,Yuki Harada,Jacob Hermann,Mika Holmberg,Greg Holsclaw,S. Houston,S. Inui,Sonal Jain,R. Jolitz,Anna Kotova,Takeshi Kuroda,Davin Larson,Yuni Lee,Christina O. Lee,Franck Lefèvre,Christy Lentz,Daniel Lo,Rafael Lugo,Yingjuan Ma,Paul R. Mahaffy,Melissa L. Marquette,Yosuke Matsumoto,Majd Mayyasi,Christian Mazelle,William E. McClintock,J. P. McFadden,Alexander S. Medvedev,Michael Mendillo,Karim Meziane,Zachariah Milby,David L. Mitchell,Ronan Modolo,Franck Montmessin,Andrew F. Nagy,Hiromu Nakagawa,Clara Narvaez,Kirk Olsen,David Pawlowski,W. K. Peterson,Ali Rahmati,K. Roeten,Norberto Romanelli,Suranga Ruhunusiri,Christopher T. Russell,Shotaro Sakai,Nicholas M. Schneider,Kanako Seki,R. Sharrar,S. R. Shaver,David E. Siskind,M. Slipski,Y. I. J. Soobiah,Morgane Steckiewicz,Michael L. Stevens,Ian Stewart,Arnaud Stiepen,S. Stone,Valeriy Tenishev,Naoki Terada,Kaori Terada,Edward Thiemann,Robert H. Tolson,Gabor Toth,Jeffrey Trovato,Marissa F. Vogt,Tristan Weber,Paul Withers,Shaosui Xu,Roger V. Yelle,Erdal Yiğit,Richard W. Zurek +131 more
TL;DR: In this article, the authors used observations of the Mars upper atmosphere made from the Mars Atmosphere and Volatile Evolution (MAVEN) spacecraft to determine the loss rates of gas from the upper atmosphere to space for a complete Mars year (16 Nov 2014 − 3 Oct 2016).
Journal ArticleDOI
MAVEN observations of the response of Mars to an interplanetary coronal mass ejection
Bruce M. Jakosky,Joseph M. Grebowsky,Janet G. Luhmann,John E. P. Connerney,Frank Eparvier,Robert E. Ergun,Jasper Halekas,D. Larson,Paul Mahaffy,J. P. McFadden,D. F. Mitchell,Nicholas M. Schneider,Richard W. Zurek,Stephen W. Bougher,David Brain,Yingjuan Ma,Christian Mazelle,Laila Andersson,David Andrews,D. Baird,Daniel N. Baker,Jared Bell,Mehdi Benna,Michael Chaffin,Phillip C. Chamberlin,Y.-Y. Chaufray,John Clarke,Glyn Collinson,Michael R. Combi,F. J. Crary,Thomas E. Cravens,Matteo Crismani,Shannon Curry,D. W. Curtis,Justin Deighan,Gregory T. Delory,R. M. Dewey,Gina A. DiBraccio,Chuanfei Dong,Yaxue Dong,P. Dunn,Meredith Elrod,Scott L. England,Anders Eriksson,Jared Espley,Scott Evans,Xiaohua Fang,Matthew Fillingim,K. Fortier,Christopher M. Fowler,Jane L. Fox,Hannes Gröller,Scott D. Guzewich,Takuya Hara,Yuki Harada,Gregory M. Holsclaw,Sonal Jain,R. Jolitz,François Leblanc,Christina O. Lee,Yuni Lee,Franck Lefèvre,Robert Lillis,Roberto Livi,Daniel Lo,Majd Mayyasi,William E. McClintock,T. McEnulty,Ronan Modolo,Franck Montmessin,Michiko Morooka,A. F. Nagy,Kirk Olsen,W. K. Peterson,Ali Rahmati,Suranga Ruhunusiri,Christopher T. Russell,Shotaro Sakai,J. A. Sauvaud,Kanako Seki,M. Steckiewicz,Michael L. Stevens,A. I. F. Stewart,Arnaud Stiepen,S. Stone,Valeriy Tenishev,Edward Thiemann,R. Tolson,D. Toublanc,Marissa F. Vogt,Tristan Weber,Paul Withers,Thomas N. Woods,Roger V. Yelle +93 more
TL;DR: Observations and models both show an enhancement in escape rate of ions to space during the Mars upper atmosphere, ionosphere, and interactions with the Sun and solar wind during an interplanetary coronal mass ejection impact in March 2015.
Journal ArticleDOI
Connections between deep tropical clouds and the Earth's ionosphere
Maura E. Hagan,Astrid Maute,Raymond G. Roble,Arthur D. Richmond,Thomas J. Immel,Scott L. England +5 more
TL;DR: In this article, a series of simulations with the National Center for Atmospheric Research (NCAR) thermosphere-ionosphere-mesosphere-electrodynamics general circulation model (TIME-GCM) were designed to replicate and facilitate the interpretation of the longitudinal structure discovered in IMAGE satellite airglow observations of the equatorial ionization anomaly (EIA) at the far-ultraviolet (FUV) 135.6-nm wavelength during March-April 2002 equinox.