F Region Electric Field Effects on the Intermediate Layer Dynamics During the Evening Prereversal Enhancement at Equatorial Region Over Brazil

Using ionograms from the Brazilian equatorial site of São Luís (SL, 2° S; 44° W, I = −3.8°), the relationship between the uplift of the intermediate layers (ILs) at sunset and the prereversal enhancement of the zonal electric field (PRE) is investigated. The ILs were studied during the solar maximum...

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Veröffentlicht in:	Journal of geophysical research. Space physics 2021-03, Vol.126 (3), p.n/a
Hauptverfasser:	Santos, A. M., Batista, I. S., Brum, C. G. M., Sobral, J.H.A., Abdu, M. A., Souza, J. R.
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Sprache:	eng
Schlagworte:	E region Electric fields Equatorial regions F region intermediate layers Ionograms Magnetic storms prereversal enhancement of the zonal electric field (PRE) Solar maximum Sporadic E layer Sunset Uplift
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container_title	Journal of geophysical research. Space physics
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creator	Santos, A. M. Batista, I. S. Brum, C. G. M. Sobral, J.H.A. Abdu, M. A. Souza, J. R.
description	Using ionograms from the Brazilian equatorial site of São Luís (SL, 2° S; 44° W, I = −3.8°), the relationship between the uplift of the intermediate layers (ILs) at sunset and the prereversal enhancement of the zonal electric field (PRE) is investigated. The ILs were studied during the solar maximum (2003) and minimum activity (2009) periods. The presence of the ILs during the PRE occurrence time was very low during both years. In 2003, six ILs’ events were observed, being four of them in the summer solstice and one in the March equinox. In 2009, only a single event was registered and occurred during the December month. The results show that depending on the height at which the ILs are located, their upward movement at sunset can be in some way related to the normal F layer rise at sunset due to the PRE. The initial altitude at which such ascending ILs were observed was higher than their normal height near sunset. Additionally, the eastward prompt penetration electric fields (PPEFs) during weak magnetic storms can also contribute to the IL’s rise. An interesting case of uplift of a sporadic‐E layer from ∼120 to 290 km probably due to the PPEF is also investigated. Key Points The PRE can cause an upward movement of the intermediate layers (ILs) located in altitudes higher than ∼170 km The prompt penetration electric field also can contribute to the uplift of the ILs and Es layers The uplift of the ILs at sunset seems to be more common over the equatorial sector during maximum solar activity
doi_str_mv	10.1029/2020JA028429
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M. ; Batista, I. S. ; Brum, C. G. M. ; Sobral, J.H.A. ; Abdu, M. A. ; Souza, J. R.</creator><creatorcontrib>Santos, A. M. ; Batista, I. S. ; Brum, C. G. M. ; Sobral, J.H.A. ; Abdu, M. A. ; Souza, J. R.</creatorcontrib><description>Using ionograms from the Brazilian equatorial site of São Luís (SL, 2° S; 44° W, I = −3.8°), the relationship between the uplift of the intermediate layers (ILs) at sunset and the prereversal enhancement of the zonal electric field (PRE) is investigated. The ILs were studied during the solar maximum (2003) and minimum activity (2009) periods. The presence of the ILs during the PRE occurrence time was very low during both years. In 2003, six ILs’ events were observed, being four of them in the summer solstice and one in the March equinox. In 2009, only a single event was registered and occurred during the December month. The results show that depending on the height at which the ILs are located, their upward movement at sunset can be in some way related to the normal F layer rise at sunset due to the PRE. The initial altitude at which such ascending ILs were observed was higher than their normal height near sunset. Additionally, the eastward prompt penetration electric fields (PPEFs) during weak magnetic storms can also contribute to the IL’s rise. An interesting case of uplift of a sporadic‐E layer from ∼120 to 290 km probably due to the PPEF is also investigated. Key Points The PRE can cause an upward movement of the intermediate layers (ILs) located in altitudes higher than ∼170 km The prompt penetration electric field also can contribute to the uplift of the ILs and Es layers The uplift of the ILs at sunset seems to be more common over the equatorial sector during maximum solar activity</description><identifier>ISSN: 2169-9380</identifier><identifier>EISSN: 2169-9402</identifier><identifier>DOI: 10.1029/2020JA028429</identifier><language>eng</language><publisher>Washington: Blackwell Publishing Ltd</publisher><subject>E region ; Electric fields ; Equatorial regions ; F region ; intermediate layers ; Ionograms ; Magnetic storms ; prereversal enhancement of the zonal electric field (PRE) ; Solar maximum ; Sporadic E layer ; Sunset ; Uplift</subject><ispartof>Journal of geophysical research. Space physics, 2021-03, Vol.126 (3), p.n/a</ispartof><rights>2021. American Geophysical Union. 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M.</creatorcontrib><creatorcontrib>Batista, I. S.</creatorcontrib><creatorcontrib>Brum, C. G. M.</creatorcontrib><creatorcontrib>Sobral, J.H.A.</creatorcontrib><creatorcontrib>Abdu, M. A.</creatorcontrib><creatorcontrib>Souza, J. R.</creatorcontrib><title>F Region Electric Field Effects on the Intermediate Layer Dynamics During the Evening Prereversal Enhancement at Equatorial Region Over Brazil</title><title>Journal of geophysical research. Space physics</title><description>Using ionograms from the Brazilian equatorial site of São Luís (SL, 2° S; 44° W, I = −3.8°), the relationship between the uplift of the intermediate layers (ILs) at sunset and the prereversal enhancement of the zonal electric field (PRE) is investigated. The ILs were studied during the solar maximum (2003) and minimum activity (2009) periods. The presence of the ILs during the PRE occurrence time was very low during both years. In 2003, six ILs’ events were observed, being four of them in the summer solstice and one in the March equinox. In 2009, only a single event was registered and occurred during the December month. The results show that depending on the height at which the ILs are located, their upward movement at sunset can be in some way related to the normal F layer rise at sunset due to the PRE. The initial altitude at which such ascending ILs were observed was higher than their normal height near sunset. Additionally, the eastward prompt penetration electric fields (PPEFs) during weak magnetic storms can also contribute to the IL’s rise. An interesting case of uplift of a sporadic‐E layer from ∼120 to 290 km probably due to the PPEF is also investigated. Key Points The PRE can cause an upward movement of the intermediate layers (ILs) located in altitudes higher than ∼170 km The prompt penetration electric field also can contribute to the uplift of the ILs and Es layers The uplift of the ILs at sunset seems to be more common over the equatorial sector during maximum solar activity</description><subject>E region</subject><subject>Electric fields</subject><subject>Equatorial regions</subject><subject>F region</subject><subject>intermediate layers</subject><subject>Ionograms</subject><subject>Magnetic storms</subject><subject>prereversal enhancement of the zonal electric field (PRE)</subject><subject>Solar maximum</subject><subject>Sporadic E layer</subject><subject>Sunset</subject><subject>Uplift</subject><issn>2169-9380</issn><issn>2169-9402</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><recordid>eNp9kMFOwkAQhjdGEwly8wE28Wp1d7ut7RGhIIQEQ_TcbLdTWNJuYbfF1IfwmV0EE0_OZWb-_8v8ySB0S8kDJSx-ZISR-ZCwiLP4AvUYDWMv5oRd_s5-RK7RwNotcRU5iQY99DXBK1irWuOkBNkYJfFEQZnjpCjcbrFzmg3gmW7AVJAr0QBeiA4MHndaVEpaPG6N0usfLDmAPs6vBgwcwFhR4kRvhJZQgW6waHCyb0VTG-Wcc_LSgfjZiE9V3qCrQpQWBufeR--T5G304i2W09louPCk_-QTjxZcRjkNeMxlEYYRCCJ54cvMCQXjAc-ACyA5i30aQBBxSQREIQWR5UCywO-ju9Pdnan3Ldgm3dat0S4yZQGJGeMsPFL3J0qa2loDRbozqhKmSylJj09P_z7d4f4J_1AldP-y6Xy6GgYhi4j_DdDgg8Y</recordid><startdate>202103</startdate><enddate>202103</enddate><creator>Santos, A. 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subjects	E region Electric fields Equatorial regions F region intermediate layers Ionograms Magnetic storms prereversal enhancement of the zonal electric field (PRE) Solar maximum Sporadic E layer Sunset Uplift
title	F Region Electric Field Effects on the Intermediate Layer Dynamics During the Evening Prereversal Enhancement at Equatorial Region Over Brazil
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