Impact of midnight thermosphere dynamics on the equatorial ionospheric vertical drifts

Recent satellite and ground‐based observations have revealed the existence of upward drifts in the postmidnight equatorial ionosphere (~0–3 LT). The phenomenon has not been explained by theoretical models. Simulations using the Whole Atmosphere Model coupled with the Global Ionosphere Plasmasphere m...

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Veröffentlicht in:	Journal of geophysical research. Space physics 2016-05, Vol.121 (5), p.4858-4868
Hauptverfasser:	Fang, T.‐W., Akmaev, R. A., Stoneback, R. A., Fuller‐Rowell, T., Wang, H., Wu, F.
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Sprache:	eng
Schlagworte:	Atmospheric models Communications systems Computer simulation Dependence Drift Dynamics Electrodynamics Equatorial ionosphere Equatorial regions equatorial vertical drift F region Ground-based observation Ion velocity Ionosphere Ionospheric models Magnetic equator Magnetic fields Meridional wind midnight temperature maximum Navigation systems Night nighttime ionosphere Plasmasphere Satellite observation Thermosphere
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container_title	Journal of geophysical research. Space physics
container_volume	121
creator	Fang, T.‐W. Akmaev, R. A. Stoneback, R. A. Fuller‐Rowell, T. Wang, H. Wu, F.
description	Recent satellite and ground‐based observations have revealed the existence of upward drifts in the postmidnight equatorial ionosphere (~0–3 LT). The phenomenon has not been explained by theoretical models. Simulations using the Whole Atmosphere Model coupled with the Global Ionosphere Plasmasphere model have successfully reproduced the unusual nighttime upward drifts. The simulations and observations by the Ion Velocity Meter onboard the Communications/Navigation Outage Forecasting System also reveal substantial longitudinal dependence of the drifts. Our analysis indicates that the upward drifts are driven by thermosphere dynamics associated with the midnight temperature maximum (MTM). The MTM locally reverses the typical large‐scale zonal and meridional wind pattern, in turn affecting the nighttime F layer electrodynamics. In addition, the longitudinal variation of the drifts in different seasons depends on the magnitude and position of the MTM peak relative to the magnetic equator. Key Points Simulation reproduces the nighttime upward drift observed by C/NOFS The nighttime upward drift is caused by thermospheric dynamics related to MTM Longitudinal variations result from the MTM dynamics and magnetic field geometry
doi_str_mv	10.1002/2015JA022282
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A. ; Stoneback, R. A. ; Fuller‐Rowell, T. ; Wang, H. ; Wu, F.</creator><creatorcontrib>Fang, T.‐W. ; Akmaev, R. A. ; Stoneback, R. A. ; Fuller‐Rowell, T. ; Wang, H. ; Wu, F.</creatorcontrib><description>Recent satellite and ground‐based observations have revealed the existence of upward drifts in the postmidnight equatorial ionosphere (~0–3 LT). The phenomenon has not been explained by theoretical models. Simulations using the Whole Atmosphere Model coupled with the Global Ionosphere Plasmasphere model have successfully reproduced the unusual nighttime upward drifts. The simulations and observations by the Ion Velocity Meter onboard the Communications/Navigation Outage Forecasting System also reveal substantial longitudinal dependence of the drifts. Our analysis indicates that the upward drifts are driven by thermosphere dynamics associated with the midnight temperature maximum (MTM). 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A.</creatorcontrib><creatorcontrib>Stoneback, R. A.</creatorcontrib><creatorcontrib>Fuller‐Rowell, T.</creatorcontrib><creatorcontrib>Wang, H.</creatorcontrib><creatorcontrib>Wu, F.</creatorcontrib><title>Impact of midnight thermosphere dynamics on the equatorial ionospheric vertical drifts</title><title>Journal of geophysical research. Space physics</title><description>Recent satellite and ground‐based observations have revealed the existence of upward drifts in the postmidnight equatorial ionosphere (~0–3 LT). The phenomenon has not been explained by theoretical models. Simulations using the Whole Atmosphere Model coupled with the Global Ionosphere Plasmasphere model have successfully reproduced the unusual nighttime upward drifts. The simulations and observations by the Ion Velocity Meter onboard the Communications/Navigation Outage Forecasting System also reveal substantial longitudinal dependence of the drifts. Our analysis indicates that the upward drifts are driven by thermosphere dynamics associated with the midnight temperature maximum (MTM). The MTM locally reverses the typical large‐scale zonal and meridional wind pattern, in turn affecting the nighttime F layer electrodynamics. In addition, the longitudinal variation of the drifts in different seasons depends on the magnitude and position of the MTM peak relative to the magnetic equator. 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A.</creatorcontrib><creatorcontrib>Stoneback, R. A.</creatorcontrib><creatorcontrib>Fuller‐Rowell, T.</creatorcontrib><creatorcontrib>Wang, H.</creatorcontrib><creatorcontrib>Wu, F.</creatorcontrib><collection>CrossRef</collection><collection>Meteorological & Geoastrophysical Abstracts</collection><collection>Technology Research Database</collection><collection>Aerospace Database</collection><collection>Meteorological & Geoastrophysical Abstracts - Academic</collection><collection>Advanced Technologies Database with Aerospace</collection><jtitle>Journal of geophysical research. Space physics</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Fang, T.‐W.</au><au>Akmaev, R. A.</au><au>Stoneback, R. A.</au><au>Fuller‐Rowell, T.</au><au>Wang, H.</au><au>Wu, F.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Impact of midnight thermosphere dynamics on the equatorial ionospheric vertical drifts</atitle><jtitle>Journal of geophysical research. Space physics</jtitle><date>2016-05</date><risdate>2016</risdate><volume>121</volume><issue>5</issue><spage>4858</spage><epage>4868</epage><pages>4858-4868</pages><issn>2169-9380</issn><eissn>2169-9402</eissn><abstract>Recent satellite and ground‐based observations have revealed the existence of upward drifts in the postmidnight equatorial ionosphere (~0–3 LT). The phenomenon has not been explained by theoretical models. Simulations using the Whole Atmosphere Model coupled with the Global Ionosphere Plasmasphere model have successfully reproduced the unusual nighttime upward drifts. The simulations and observations by the Ion Velocity Meter onboard the Communications/Navigation Outage Forecasting System also reveal substantial longitudinal dependence of the drifts. Our analysis indicates that the upward drifts are driven by thermosphere dynamics associated with the midnight temperature maximum (MTM). The MTM locally reverses the typical large‐scale zonal and meridional wind pattern, in turn affecting the nighttime F layer electrodynamics. In addition, the longitudinal variation of the drifts in different seasons depends on the magnitude and position of the MTM peak relative to the magnetic equator. 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subjects	Atmospheric models Communications systems Computer simulation Dependence Drift Dynamics Electrodynamics Equatorial ionosphere Equatorial regions equatorial vertical drift F region Ground-based observation Ion velocity Ionosphere Ionospheric models Magnetic equator Magnetic fields Meridional wind midnight temperature maximum Navigation systems Night nighttime ionosphere Plasmasphere Satellite observation Thermosphere
title	Impact of midnight thermosphere dynamics on the equatorial ionospheric vertical drifts
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