Development of ground-based search -coil magnetometer systems in the polar regions and studies of ULF Pc 1--2 wave propagation in the ionospheric waveguide

Search-coil magnetometers, which measure time-varying magnetic flux density (dB/dt) and its direction, have been developed for the observations of geomagnetic pulsations in the ultra low frequency (ULF) range (a few mHz to a few Hz). The design, fabrication, and test/calibration have been performed...

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Main Author: Kim, Hyomin
Format: Text
Language:unknown
Published: University of New Hampshire Scholars' Repository 2010
Subjects:
Physics
Astrophysics
Engineering
System Science
Antarc*
Antarctic
Online Access:https://scholars.unh.edu/dissertation/598
https://scholars.unh.edu/context/dissertation/article/1597/viewcontent/3470105.pdf
id ftuninhampshire:oai:scholars.unh.edu:dissertation-1597
record_format openpolar
spelling ftuninhampshire:oai:scholars.unh.edu:dissertation-1597 2024-09-15T17:41:31+00:00 Development of ground-based search -coil magnetometer systems in the polar regions and studies of ULF Pc 1--2 wave propagation in the ionospheric waveguide Kim, Hyomin 2010-01-01T08:00:00Z application/pdf https://scholars.unh.edu/dissertation/598 https://scholars.unh.edu/context/dissertation/article/1597/viewcontent/3470105.pdf unknown University of New Hampshire Scholars' Repository https://scholars.unh.edu/dissertation/598 https://scholars.unh.edu/context/dissertation/article/1597/viewcontent/3470105.pdf Doctoral Dissertations Physics Astrophysics Engineering System Science text 2010 ftuninhampshire 2024-08-02T04:50:27Z Search-coil magnetometers, which measure time-varying magnetic flux density (dB/dt) and its direction, have been developed for the observations of geomagnetic pulsations in the ultra low frequency (ULF) range (a few mHz to a few Hz). The design, fabrication, and test/calibration have been performed to detect very weak geomagnetic pulsations with approximately a few pT resolution over the frequency range 0 --- 2.5 Hz and 100 musec timing accuracy, given a system gain of 4.43 V/(nT·Hz) and 12-bit analog-to-digital converter (ADC) with GPS time stamps. These instruments are deployed in the Polar regions forming high latitude networks and conjugate measurement points between the northern and the southern hemispheres. In addition to the development and installation of the magnetometers, this thesis describes analysis of the data from the magnetometer systems, mainly focusing on ULF wave propagation in the ionospheric waveguide (duct) centered around the electron density maximum near the F2 ionization peak. The Antarctic magnetometer array observes well-defined, band-limited ULF Pc 1--2 waves with poleward spectral power attenuation over a very extensive latitudinal coverage from geomagnetic latitudes of --62° to --87° (over the distance of 2920 km). This is a clear indication of the propagation of the electromagnetic ion cyclotron (EMIC) waves in the ionospheric waveguide. This study focuses on the ducting events by comparing spectral power attenuation factors and polarization patterns. A statistical survey of the events reveals that the attenuation factors are between ∼10 to 14 dB/1000 km and the polarization sense changes as the waves are ducted poleward from the low latitude regions. For a detailed event study, a CHAMP satellite conjunction is presented. During the overflight, a transverse and linearly polarized Pc 1 ULF wave was also found over a limited latitudinal extent (--53° to --61° ILAT), which supports the idea that EMIC waves are injected at low latitudes and ducted in the ionosphere. The results ... Text Antarc* Antarctic University of New Hampshire: Scholars Repository
institution Open Polar
collection University of New Hampshire: Scholars Repository
op_collection_id ftuninhampshire
language unknown
topic Physics
Astrophysics
Engineering
System Science
spellingShingle Physics
Astrophysics
Engineering
System Science
Kim, Hyomin
Development of ground-based search -coil magnetometer systems in the polar regions and studies of ULF Pc 1--2 wave propagation in the ionospheric waveguide
topic_facet Physics
Astrophysics
Engineering
System Science
description Search-coil magnetometers, which measure time-varying magnetic flux density (dB/dt) and its direction, have been developed for the observations of geomagnetic pulsations in the ultra low frequency (ULF) range (a few mHz to a few Hz). The design, fabrication, and test/calibration have been performed to detect very weak geomagnetic pulsations with approximately a few pT resolution over the frequency range 0 --- 2.5 Hz and 100 musec timing accuracy, given a system gain of 4.43 V/(nT·Hz) and 12-bit analog-to-digital converter (ADC) with GPS time stamps. These instruments are deployed in the Polar regions forming high latitude networks and conjugate measurement points between the northern and the southern hemispheres. In addition to the development and installation of the magnetometers, this thesis describes analysis of the data from the magnetometer systems, mainly focusing on ULF wave propagation in the ionospheric waveguide (duct) centered around the electron density maximum near the F2 ionization peak. The Antarctic magnetometer array observes well-defined, band-limited ULF Pc 1--2 waves with poleward spectral power attenuation over a very extensive latitudinal coverage from geomagnetic latitudes of --62° to --87° (over the distance of 2920 km). This is a clear indication of the propagation of the electromagnetic ion cyclotron (EMIC) waves in the ionospheric waveguide. This study focuses on the ducting events by comparing spectral power attenuation factors and polarization patterns. A statistical survey of the events reveals that the attenuation factors are between ∼10 to 14 dB/1000 km and the polarization sense changes as the waves are ducted poleward from the low latitude regions. For a detailed event study, a CHAMP satellite conjunction is presented. During the overflight, a transverse and linearly polarized Pc 1 ULF wave was also found over a limited latitudinal extent (--53° to --61° ILAT), which supports the idea that EMIC waves are injected at low latitudes and ducted in the ionosphere. The results ...
format Text
author Kim, Hyomin
author_facet Kim, Hyomin
author_sort Kim, Hyomin
title Development of ground-based search -coil magnetometer systems in the polar regions and studies of ULF Pc 1--2 wave propagation in the ionospheric waveguide
title_short Development of ground-based search -coil magnetometer systems in the polar regions and studies of ULF Pc 1--2 wave propagation in the ionospheric waveguide
title_full Development of ground-based search -coil magnetometer systems in the polar regions and studies of ULF Pc 1--2 wave propagation in the ionospheric waveguide
title_fullStr Development of ground-based search -coil magnetometer systems in the polar regions and studies of ULF Pc 1--2 wave propagation in the ionospheric waveguide
title_full_unstemmed Development of ground-based search -coil magnetometer systems in the polar regions and studies of ULF Pc 1--2 wave propagation in the ionospheric waveguide
title_sort development of ground-based search -coil magnetometer systems in the polar regions and studies of ulf pc 1--2 wave propagation in the ionospheric waveguide
publisher University of New Hampshire Scholars' Repository
publishDate 2010
url https://scholars.unh.edu/dissertation/598
https://scholars.unh.edu/context/dissertation/article/1597/viewcontent/3470105.pdf
genre Antarc*
Antarctic
genre_facet Antarc*
Antarctic
op_source Doctoral Dissertations
op_relation https://scholars.unh.edu/dissertation/598
https://scholars.unh.edu/context/dissertation/article/1597/viewcontent/3470105.pdf
_version_ 1810487722858512384

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