A Statistical Analysis of the Morphology of Storm‐Enhanced Density Plumes Over the North American Sector

The storm‐enhanced density (SED) is a large‐scale midlatitude ionospheric electron density enhancement in the local afternoon sector, which exhibits substantial spatial gradients and thus can impose detrimental effects on modern navigation and communication systems, causing potential space weather h...

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Veröffentlicht in:	Journal of geophysical research. Space physics 2024-06, Vol.129 (6), p.n/a
Hauptverfasser:	Aa, Ercha, Dzwill, Patricia, Zhang, Shun‐Rong, Erickson, Philip J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Communications systems Data assimilation Data collection Electron density Geomagnetic activity geomagnetic dependence Geomagnetic storms Geomagnetism Global navigation satellite system GNSS TEC Hazard identification Ionospheric electron density Ionospheric electrons ionospheric storm Magnetic storms Morphology Navigation satellites Navigation systems Plumes Satellites Seasonal distribution SED speed and duration Solar cycle solar cycle variation Solar maximum Solar minimum Space weather Statistical analysis Storms storm‐enhanced density Total Electron Content Weather hazards
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creator	Aa, Ercha Dzwill, Patricia Zhang, Shun‐Rong Erickson, Philip J.
description	The storm‐enhanced density (SED) is a large‐scale midlatitude ionospheric electron density enhancement in the local afternoon sector, which exhibits substantial spatial gradients and thus can impose detrimental effects on modern navigation and communication systems, causing potential space weather hazards. This study has identified a comprehensive list of 49 SED events over the continental US and adjacent regions, by examining strong geomagnetic storms occurring between 2000 and 2023. The ground‐based Global Navigation Satellite System (GNSS) total electron content and data from a new TEC‐based ionospheric data assimilation system were used to analyze the characteristics of SED. For each derived SED events, we have quantified its morphology by employing a Gaussian function to parameterize key characteristics of the SED, such as the plume intensity, central longitude, and half‐width. A statistical analysis of SEDs was conducted for the first time to characterize their climatological features. We found that the SED distribution exhibits a higher peak intensity and a narrower width as geomagnetic activity strengthens. The peak intensity of SED has maximum values around the equinoxes in their seasonal distribution. Additionally, we observed a solar cycle dependence in the SED distribution, with more events occurring during the solar maximum and declining phases compared to the solar minimum. SED plumes exhibit a sub‐corotation feature with respect to the Earth, characterized by a westward drift speed between 50 and 400 m/s and a duration of 3–10 hr. These information advanced the current understanding of the spatial‐temporal variation of SED characteristics. Key Points A comprehensive list of 49 storm‐enhanced density (SED) events over the continental US was identified for periods of intense geomagnetic storms during 2000–2023 A first‐time statistical analysis of SEDs demonstrates their geomagnetic dependence, seasonal distribution, and solar cycle variation SEDs demonstrate a sub‐corotate feature with respect to the Earth, with westward drifting speeds of 50–400 m/s and a duration of 3–10 hr
doi_str_mv	10.1029/2024JA032750
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Additionally, we observed a solar cycle dependence in the SED distribution, with more events occurring during the solar maximum and declining phases compared to the solar minimum. SED plumes exhibit a sub‐corotation feature with respect to the Earth, characterized by a westward drift speed between 50 and 400 m/s and a duration of 3–10 hr. These information advanced the current understanding of the spatial‐temporal variation of SED characteristics. Key Points A comprehensive list of 49 storm‐enhanced density (SED) events over the continental US was identified for periods of intense geomagnetic storms during 2000–2023 A first‐time statistical analysis of SEDs demonstrates their geomagnetic dependence, seasonal distribution, and solar cycle variation SEDs demonstrate a sub‐corotate feature with respect to the Earth, with westward drifting speeds of 50–400 m/s and a duration of 3–10 hr</description><identifier>ISSN: 2169-9380</identifier><identifier>EISSN: 2169-9402</identifier><identifier>DOI: 10.1029/2024JA032750</identifier><language>eng</language><publisher>Washington: Blackwell Publishing Ltd</publisher><subject>Communications systems ; Data assimilation ; Data collection ; Electron density ; Geomagnetic activity ; geomagnetic dependence ; Geomagnetic storms ; Geomagnetism ; Global navigation satellite system ; GNSS TEC ; Hazard identification ; Ionospheric electron density ; Ionospheric electrons ; ionospheric storm ; Magnetic storms ; Morphology ; Navigation satellites ; Navigation systems ; Plumes ; Satellites ; Seasonal distribution ; SED speed and duration ; Solar cycle ; solar cycle variation ; Solar maximum ; Solar minimum ; Space weather ; Statistical analysis ; Storms ; storm‐enhanced density ; Total Electron Content ; Weather hazards</subject><ispartof>Journal of geophysical research. 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Space physics</title><description>The storm‐enhanced density (SED) is a large‐scale midlatitude ionospheric electron density enhancement in the local afternoon sector, which exhibits substantial spatial gradients and thus can impose detrimental effects on modern navigation and communication systems, causing potential space weather hazards. This study has identified a comprehensive list of 49 SED events over the continental US and adjacent regions, by examining strong geomagnetic storms occurring between 2000 and 2023. The ground‐based Global Navigation Satellite System (GNSS) total electron content and data from a new TEC‐based ionospheric data assimilation system were used to analyze the characteristics of SED. For each derived SED events, we have quantified its morphology by employing a Gaussian function to parameterize key characteristics of the SED, such as the plume intensity, central longitude, and half‐width. A statistical analysis of SEDs was conducted for the first time to characterize their climatological features. We found that the SED distribution exhibits a higher peak intensity and a narrower width as geomagnetic activity strengthens. The peak intensity of SED has maximum values around the equinoxes in their seasonal distribution. Additionally, we observed a solar cycle dependence in the SED distribution, with more events occurring during the solar maximum and declining phases compared to the solar minimum. SED plumes exhibit a sub‐corotation feature with respect to the Earth, characterized by a westward drift speed between 50 and 400 m/s and a duration of 3–10 hr. These information advanced the current understanding of the spatial‐temporal variation of SED characteristics. Key Points A comprehensive list of 49 storm‐enhanced density (SED) events over the continental US was identified for periods of intense geomagnetic storms during 2000–2023 A first‐time statistical analysis of SEDs demonstrates their geomagnetic dependence, seasonal distribution, and solar cycle variation SEDs demonstrate a sub‐corotate feature with respect to the Earth, with westward drifting speeds of 50–400 m/s and a duration of 3–10 hr</description><subject>Communications systems</subject><subject>Data assimilation</subject><subject>Data collection</subject><subject>Electron density</subject><subject>Geomagnetic activity</subject><subject>geomagnetic dependence</subject><subject>Geomagnetic storms</subject><subject>Geomagnetism</subject><subject>Global navigation satellite system</subject><subject>GNSS TEC</subject><subject>Hazard identification</subject><subject>Ionospheric electron density</subject><subject>Ionospheric electrons</subject><subject>ionospheric storm</subject><subject>Magnetic storms</subject><subject>Morphology</subject><subject>Navigation satellites</subject><subject>Navigation systems</subject><subject>Plumes</subject><subject>Satellites</subject><subject>Seasonal distribution</subject><subject>SED speed and duration</subject><subject>Solar cycle</subject><subject>solar cycle variation</subject><subject>Solar maximum</subject><subject>Solar minimum</subject><subject>Space weather</subject><subject>Statistical analysis</subject><subject>Storms</subject><subject>storm‐enhanced density</subject><subject>Total Electron Content</subject><subject>Weather hazards</subject><issn>2169-9380</issn><issn>2169-9402</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><sourceid>24P</sourceid><recordid>eNp9kE1OwzAQhS0EElXpjgNYYkvAP3EcL6NSClX5Ee3eSlyHpEriYrug7DgCZ-QkuBQkVrzFzOjpeyPNAHCK0QVGRFwSROJZhijhDB2AAcGJiESMyOHvTFN0DEbOrVFQGizMBmCdwYXPfe18rfIGZl3e9K520JTQVxreGbupTGOe-52z8Ma2n-8fk67KO6VX8Ep3rvY9fGy2rXbw4VXb79i9sb6CWatt2NrBhVYheQKOyrxxevTTh2B5PVmOb6L5w_R2nM0jRRHBEWdFwhPMiEpLnAfFAlEcixXTpUpitmKCFSK4nCciFTShqkCqSFkogpZ0CM72azfWvGy183Jttjbc5SRFHAvCeUwCdb6nlDXOWV3Kja3b3PYSI7n7p_z7z4DTPf5WN7r_l5Wz6VPGUoYx_QKRdnZx</recordid><startdate>202406</startdate><enddate>202406</enddate><creator>Aa, Ercha</creator><creator>Dzwill, Patricia</creator><creator>Zhang, Shun‐Rong</creator><creator>Erickson, Philip J.</creator><general>Blackwell Publishing Ltd</general><scope>24P</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7TG</scope><scope>8FD</scope><scope>H8D</scope><scope>KL.</scope><scope>L7M</scope><orcidid>https://orcid.org/0000-0002-5228-4119</orcidid><orcidid>https://orcid.org/0000-0002-0031-9324</orcidid><orcidid>https://orcid.org/0000-0002-1946-3166</orcidid></search><sort><creationdate>202406</creationdate><title>A Statistical Analysis of the Morphology of Storm‐Enhanced Density Plumes Over the North American Sector</title><author>Aa, Ercha ; 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Space physics</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Aa, Ercha</au><au>Dzwill, Patricia</au><au>Zhang, Shun‐Rong</au><au>Erickson, Philip J.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>A Statistical Analysis of the Morphology of Storm‐Enhanced Density Plumes Over the North American Sector</atitle><jtitle>Journal of geophysical research. Space physics</jtitle><date>2024-06</date><risdate>2024</risdate><volume>129</volume><issue>6</issue><epage>n/a</epage><issn>2169-9380</issn><eissn>2169-9402</eissn><abstract>The storm‐enhanced density (SED) is a large‐scale midlatitude ionospheric electron density enhancement in the local afternoon sector, which exhibits substantial spatial gradients and thus can impose detrimental effects on modern navigation and communication systems, causing potential space weather hazards. 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Additionally, we observed a solar cycle dependence in the SED distribution, with more events occurring during the solar maximum and declining phases compared to the solar minimum. SED plumes exhibit a sub‐corotation feature with respect to the Earth, characterized by a westward drift speed between 50 and 400 m/s and a duration of 3–10 hr. These information advanced the current understanding of the spatial‐temporal variation of SED characteristics. 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subjects	Communications systems Data assimilation Data collection Electron density Geomagnetic activity geomagnetic dependence Geomagnetic storms Geomagnetism Global navigation satellite system GNSS TEC Hazard identification Ionospheric electron density Ionospheric electrons ionospheric storm Magnetic storms Morphology Navigation satellites Navigation systems Plumes Satellites Seasonal distribution SED speed and duration Solar cycle solar cycle variation Solar maximum Solar minimum Space weather Statistical analysis Storms storm‐enhanced density Total Electron Content Weather hazards
title	A Statistical Analysis of the Morphology of Storm‐Enhanced Density Plumes Over the North American Sector
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