Dynamics of Equatorial Spread F Using Ground-Based Optical and Radar Measurements

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The Earth’s equatorial ionosphere most often shows the occurrence of large plasma density and velocity fluctuations with a broad range of scale sizes and amplitudes. These night time ionospheric irregularities in the F-region are commonly referred to as equatorial spread F (ESF) or plasma bubbles (E...

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Detalles Bibliográficos
Autor: Chapagain, Narayan P.
Formato: tesis doctoral
Fecha de Publicación:2011
Institución:Instituto Geofísico del Perú
Repositorio:IGP-Institucional
Lenguaje:inglés
OAI Identifier:oai:repositorio.igp.gob.pe:20.500.12816/4468
Enlace del recurso:http://hdl.handle.net/20.500.12816/4468
Nivel de acceso:acceso abierto
Materia:Ionosphere
Radar
Plasma Bubbles
http://purl.org/pe-repo/ocde/ford#1.03.00
http://purl.org/pe-repo/ocde/ford#1.05.01
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dc.title.es_ES.fl_str_mv Dynamics of Equatorial Spread F Using Ground-Based Optical and Radar Measurements
title Dynamics of Equatorial Spread F Using Ground-Based Optical and Radar Measurements
spellingShingle Dynamics of Equatorial Spread F Using Ground-Based Optical and Radar Measurements
Chapagain, Narayan P.
Ionosphere
Radar
Plasma Bubbles
http://purl.org/pe-repo/ocde/ford#1.03.00
http://purl.org/pe-repo/ocde/ford#1.05.01
title_short Dynamics of Equatorial Spread F Using Ground-Based Optical and Radar Measurements
title_full Dynamics of Equatorial Spread F Using Ground-Based Optical and Radar Measurements
title_fullStr Dynamics of Equatorial Spread F Using Ground-Based Optical and Radar Measurements
title_full_unstemmed Dynamics of Equatorial Spread F Using Ground-Based Optical and Radar Measurements
title_sort Dynamics of Equatorial Spread F Using Ground-Based Optical and Radar Measurements
author Chapagain, Narayan P.
author_facet Chapagain, Narayan P.
author_role author
dc.contributor.advisor.fl_str_mv Michael, Taylor
dc.contributor.author.fl_str_mv Chapagain, Narayan P.
dc.subject.es_ES.fl_str_mv Ionosphere
Radar
Plasma Bubbles
topic Ionosphere
Radar
Plasma Bubbles
http://purl.org/pe-repo/ocde/ford#1.03.00
http://purl.org/pe-repo/ocde/ford#1.05.01
dc.subject.ocde.es_ES.fl_str_mv http://purl.org/pe-repo/ocde/ford#1.03.00
http://purl.org/pe-repo/ocde/ford#1.05.01
description The Earth’s equatorial ionosphere most often shows the occurrence of large plasma density and velocity fluctuations with a broad range of scale sizes and amplitudes. These night time ionospheric irregularities in the F-region are commonly referred to as equatorial spread F (ESF) or plasma bubbles (EPBs). This dissertation focuses on analysis of ground-based optical and radar measurements to investigate the development and dynamics of ESF, which can significantly disrupt radio communication and GPS navigation systems. OI (630.0 nm) airglow image data were obtained by the Utah State University all-sky CCD camera, primarily during the equinox period, from three different longitudinal sectors under similar solar flux conditions: Christmas Island in the Central Pacific Ocean, Ascension Island in South Atlantic, and Brasilia and Cariri in Brazil. Well-defined magnetic field-aligned depletions were observed from each of these sites enabling detailed measurements of their morphology and dynamics. These data have also been used to investigate day-to-day and longitudinal variations in the evolution and distribution of the plasma bubbles, and their nocturnal zonal drift velocities. In particular, comparative optical measurements at different longitudinal sectors illustrated interesting findings. During the post midnight period, the data from Christmas Island consistently showed nearly constant eastward bubble velocity at a much higher value (~80 m/s) than expected, while data from Ascension Island exhibited a most unusual shear motion of the bubble structure, up to 55 m/s, on one occasion with westward drift at low latitude and eastward at higher latitudes, evident within the field of view of the camera. In addition, long-term radar observations during 1996-2006 from Jicamarca, Peru have been used to study the climatology of post-sunset ESF irregularities. Results showed that the spread F onset times did not change much with solar flux and that their onset heights increased linearly from solar minimum to solar maximum. On average, radar plume onset occurred earlier with increasing solar flux, and plume onset and peak altitudes increased with solar activity. The F-region upward drift velocities that precede spread F onset increased from solar minimum to solar maximum, and were approximately proportional to the maximum prereversal drift peak velocities.
publishDate 2011
dc.date.accessioned.none.fl_str_mv 2019-04-15T17:22:56Z
dc.date.available.none.fl_str_mv 2019-04-15T17:22:56Z
dc.date.issued.fl_str_mv 2011
dc.type.es_ES.fl_str_mv info:eu-repo/semantics/doctoralThesis
format doctoralThesis
dc.identifier.citation.es_ES.fl_str_mv Chapagain, N. P. (2011).==$Dynamics of Equatorial Spread F Using Ground-Based Optical and Radar Measurements$==(Dissertation for the degree of Doctor of Philosophy in Physics). Utah State University, United States.
dc.identifier.uri.none.fl_str_mv http://hdl.handle.net/20.500.12816/4468
identifier_str_mv Chapagain, N. P. (2011).==$Dynamics of Equatorial Spread F Using Ground-Based Optical and Radar Measurements$==(Dissertation for the degree of Doctor of Philosophy in Physics). Utah State University, United States.
url http://hdl.handle.net/20.500.12816/4468
dc.language.iso.es_ES.fl_str_mv eng
language eng
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eu_rights_str_mv openAccess
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dc.publisher.es_ES.fl_str_mv Utah State University
dc.source.none.fl_str_mv reponame:IGP-Institucional
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instacron:IGP
instname_str Instituto Geofísico del Perú
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collection IGP-Institucional
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spelling Michael, TaylorChapagain, Narayan P.2019-04-15T17:22:56Z2019-04-15T17:22:56Z2011Chapagain, N. P. (2011).==$Dynamics of Equatorial Spread F Using Ground-Based Optical and Radar Measurements$==(Dissertation for the degree of Doctor of Philosophy in Physics). Utah State University, United States.http://hdl.handle.net/20.500.12816/4468The Earth’s equatorial ionosphere most often shows the occurrence of large plasma density and velocity fluctuations with a broad range of scale sizes and amplitudes. These night time ionospheric irregularities in the F-region are commonly referred to as equatorial spread F (ESF) or plasma bubbles (EPBs). This dissertation focuses on analysis of ground-based optical and radar measurements to investigate the development and dynamics of ESF, which can significantly disrupt radio communication and GPS navigation systems. OI (630.0 nm) airglow image data were obtained by the Utah State University all-sky CCD camera, primarily during the equinox period, from three different longitudinal sectors under similar solar flux conditions: Christmas Island in the Central Pacific Ocean, Ascension Island in South Atlantic, and Brasilia and Cariri in Brazil. Well-defined magnetic field-aligned depletions were observed from each of these sites enabling detailed measurements of their morphology and dynamics. These data have also been used to investigate day-to-day and longitudinal variations in the evolution and distribution of the plasma bubbles, and their nocturnal zonal drift velocities. In particular, comparative optical measurements at different longitudinal sectors illustrated interesting findings. During the post midnight period, the data from Christmas Island consistently showed nearly constant eastward bubble velocity at a much higher value (~80 m/s) than expected, while data from Ascension Island exhibited a most unusual shear motion of the bubble structure, up to 55 m/s, on one occasion with westward drift at low latitude and eastward at higher latitudes, evident within the field of view of the camera. In addition, long-term radar observations during 1996-2006 from Jicamarca, Peru have been used to study the climatology of post-sunset ESF irregularities. Results showed that the spread F onset times did not change much with solar flux and that their onset heights increased linearly from solar minimum to solar maximum. On average, radar plume onset occurred earlier with increasing solar flux, and plume onset and peak altitudes increased with solar activity. 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