A New Method to Retrieve Thermospheric Parameters From Daytime Bottom‐Side Ne(h) Observations

A New Method to Retrieve Thermospheric Parameters From Daytime Bottom‐Side Ne(h) Observations

A new method to extract neutral composition (O, O2, N2), exospheric temperature Tex, vertical plasma drift, W, and the total solar Extreme Ultraviolet flux with λ ≤ 1050 Å from routine ionosonde bottom‐side electron density, Ne(h), observations has been proposed. The method can be used around noonti...

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Veröffentlicht in:Journal of geophysical research. Space physics 2018-12, Vol.123 (12), p.10,200-10,212
Hauptverfasser: Perrone, L., Mikhailov, A. V.
Format: Artikel
Sprache:eng
Schlagworte:
Accelerometers
Atmospheric models
Electron density
Empirical analysis
Empirical models
Extreme ultraviolet radiation
Gas density
Geophysics
Ionosondes
Magnetic storms
Neutral gas density
Neutral gases
Parameters
Plasma drift
Storms
Thermospheric parameters
Ultraviolet radiation
Upper atmosphere
Vertical drift
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Mikhailov, A. V.
description A new method to extract neutral composition (O, O2, N2), exospheric temperature Tex, vertical plasma drift, W, and the total solar Extreme Ultraviolet flux with λ ≤ 1050 Å from routine ionosonde bottom‐side electron density, Ne(h), observations has been proposed. The method can be used around noontime hours for all months of the year at middle latitudes where the ionospheric F‐layer is formed by solar Extreme Ultraviolet radiation. The uncertainty of the retrieved neutral gas density coincides with the announced Mean Relative Deviation ±(10‐15%) of CHAMP/STAR neutral gas density observations. The method also provides statistically significant better results in a comparison with modern Mass‐Spectrometer‐Incoherent‐Scatter, Jacchia‐Bowman 2008, and Drag Temperature Model 2013 empirical models. The thermospheric parameters retrieved for the St. Patrick Day magnetic storm and two so‐called Q‐disturbance periods are given as an example of the method application. The retrieved neutral gas densities for the St. Patrick Day storm are compared to Swarm‐B accelerometer observations. The proposed method may be considered as a useful tool for analyses of the state of the upper atmosphere under various geophysical conditions. Key Points A new method to extract a self‐consistent set of aeronomic parameters (Tex, O, O2, N2, W, and EUV flux) from ionosonde observations has been proposed The method is applied for all seasons at middle and lower latitudes where the ionospheric F‐layer is formed by solar EUV radiation Testing of the method on CHAMP/STAR neutral gas density has shown better accuracy than modern empirical models MSISE00, JB2008, DTM2013
doi_str_mv 10.1029/2018JA025762
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The thermospheric parameters retrieved for the St. Patrick Day magnetic storm and two so‐called Q‐disturbance periods are given as an example of the method application. The retrieved neutral gas densities for the St. Patrick Day storm are compared to Swarm‐B accelerometer observations. The proposed method may be considered as a useful tool for analyses of the state of the upper atmosphere under various geophysical conditions. Key Points A new method to extract a self‐consistent set of aeronomic parameters (Tex, O, O2, N2, W, and EUV flux) from ionosonde observations has been proposed The method is applied for all seasons at middle and lower latitudes where the ionospheric F‐layer is formed by solar EUV radiation Testing of the method on CHAMP/STAR neutral gas density has shown better accuracy than modern empirical models MSISE00, JB2008, DTM2013</description><identifier>ISSN: 2169-9380</identifier><identifier>EISSN: 2169-9402</identifier><identifier>DOI: 10.1029/2018JA025762</identifier><language>eng</language><publisher>Washington: Blackwell Publishing Ltd</publisher><subject>Accelerometers ; Atmospheric models ; Electron density ; Empirical analysis ; Empirical models ; Extreme ultraviolet radiation ; Gas density ; Geophysics ; Ionosondes ; Magnetic storms ; Neutral gas density ; Neutral gases ; Parameters ; Plasma drift ; Storms ; Thermospheric parameters ; Ultraviolet radiation ; Upper atmosphere ; Vertical drift</subject><ispartof>Journal of geophysical research. 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V.</creatorcontrib><title>A New Method to Retrieve Thermospheric Parameters From Daytime Bottom‐Side Ne(h) Observations</title><title>Journal of geophysical research. Space physics</title><description>A new method to extract neutral composition (O, O2, N2), exospheric temperature Tex, vertical plasma drift, W, and the total solar Extreme Ultraviolet flux with λ ≤ 1050 Å from routine ionosonde bottom‐side electron density, Ne(h), observations has been proposed. The method can be used around noontime hours for all months of the year at middle latitudes where the ionospheric F‐layer is formed by solar Extreme Ultraviolet radiation. The uncertainty of the retrieved neutral gas density coincides with the announced Mean Relative Deviation ±(10‐15%) of CHAMP/STAR neutral gas density observations. The method also provides statistically significant better results in a comparison with modern Mass‐Spectrometer‐Incoherent‐Scatter, Jacchia‐Bowman 2008, and Drag Temperature Model 2013 empirical models. The thermospheric parameters retrieved for the St. Patrick Day magnetic storm and two so‐called Q‐disturbance periods are given as an example of the method application. The retrieved neutral gas densities for the St. Patrick Day storm are compared to Swarm‐B accelerometer observations. The proposed method may be considered as a useful tool for analyses of the state of the upper atmosphere under various geophysical conditions. 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Space physics</jtitle><date>2018-12</date><risdate>2018</risdate><volume>123</volume><issue>12</issue><spage>10,200</spage><epage>10,212</epage><pages>10,200-10,212</pages><issn>2169-9380</issn><eissn>2169-9402</eissn><abstract>A new method to extract neutral composition (O, O2, N2), exospheric temperature Tex, vertical plasma drift, W, and the total solar Extreme Ultraviolet flux with λ ≤ 1050 Å from routine ionosonde bottom‐side electron density, Ne(h), observations has been proposed. The method can be used around noontime hours for all months of the year at middle latitudes where the ionospheric F‐layer is formed by solar Extreme Ultraviolet radiation. The uncertainty of the retrieved neutral gas density coincides with the announced Mean Relative Deviation ±(10‐15%) of CHAMP/STAR neutral gas density observations. The method also provides statistically significant better results in a comparison with modern Mass‐Spectrometer‐Incoherent‐Scatter, Jacchia‐Bowman 2008, and Drag Temperature Model 2013 empirical models. The thermospheric parameters retrieved for the St. Patrick Day magnetic storm and two so‐called Q‐disturbance periods are given as an example of the method application. The retrieved neutral gas densities for the St. Patrick Day storm are compared to Swarm‐B accelerometer observations. The proposed method may be considered as a useful tool for analyses of the state of the upper atmosphere under various geophysical conditions. Key Points A new method to extract a self‐consistent set of aeronomic parameters (Tex, O, O2, N2, W, and EUV flux) from ionosonde observations has been proposed The method is applied for all seasons at middle and lower latitudes where the ionospheric F‐layer is formed by solar EUV radiation Testing of the method on CHAMP/STAR neutral gas density has shown better accuracy than modern empirical models MSISE00, JB2008, DTM2013</abstract><cop>Washington</cop><pub>Blackwell Publishing Ltd</pub><doi>10.1029/2018JA025762</doi><tpages>13</tpages><orcidid>https://orcid.org/0000-0003-4335-0345</orcidid><oa>free_for_read</oa></addata></record>
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subjects Accelerometers
Atmospheric models
Electron density
Empirical analysis
Empirical models
Extreme ultraviolet radiation
Gas density
Geophysics
Ionosondes
Magnetic storms
Neutral gas density
Neutral gases
Parameters
Plasma drift
Storms
Thermospheric parameters
Ultraviolet radiation
Upper atmosphere
Vertical drift
title A New Method to Retrieve Thermospheric Parameters From Daytime Bottom‐Side Ne(h) Observations
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