SECS Analysis of Nighttime Magnetic Perturbation Events Observed in Arctic Canada

Large changes of the magnetic field associated with magnetic perturbation events (MPEs) with amplitudes |Î B| of hundreds of nT and 5- 10Â min duration have been frequently observed within a few hours of midnight. This study compares the statistical location of nighttime MPEs with |dB/dt| - ¥ 6Â nT/...

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Published in:Journal of Geophysical Research: Space Physics
Main Authors: Weygand, James M., Engebretson, Mark J., Pilipenko, Viacheslav A., Steinmetz, Erik S., Moldwin, Mark B., Connors, Martin G., Nishimura, Yukitoshi, Lyons, Larry R., Russell, Christopher T., Ohtani, Shin‐Ichi, Gjerloev, Jesper
Format: Article in Journal/Newspaper
Language:unknown
Published: University of California 2021
Subjects:
magnetic perturbation events
spherical elementary currents
substorms
ground magnetometer data
ionospheric currents
Astronomy and Astrophysics
Science
Arctic
Canada
Cape Dorset
Kuujjuarapik
Online Access:https://hdl.handle.net/2027.42/171034
https://doi.org/10.1029/2021JA029839
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author Weygand, James M.
Engebretson, Mark J.
Pilipenko, Viacheslav A.
Steinmetz, Erik S.
Moldwin, Mark B.
Connors, Martin G.
Nishimura, Yukitoshi
Lyons, Larry R.
Russell, Christopher T.
Ohtani, Shin‐Ichi
Gjerloev, Jesper
author_facet Weygand, James M.
Engebretson, Mark J.
Pilipenko, Viacheslav A.
Steinmetz, Erik S.
Moldwin, Mark B.
Connors, Martin G.
Nishimura, Yukitoshi
Lyons, Larry R.
Russell, Christopher T.
Ohtani, Shin‐Ichi
Gjerloev, Jesper
author_sort Weygand, James M.
collection Unknown
container_issue 11
container_title Journal of Geophysical Research: Space Physics
container_volume 126
description Large changes of the magnetic field associated with magnetic perturbation events (MPEs) with amplitudes |Î B| of hundreds of nT and 5- 10Â min duration have been frequently observed within a few hours of midnight. This study compares the statistical location of nighttime MPEs with |dB/dt| - ¥ 6Â nT/s within the auroral current system observed during 2015 and 2017 at two stations, Cape Dorset and Kuujjuarapik, in Eastern Canada. Maps of the two dimensional nightside auroral current system were derived using the Spherical Elementary Current Systems (SECS) technique. Analyses were produced at each station for all events, and for premidnight and postmidnight subsets. We examine four MPE intervals in detail, two accompanied by auroral images, and show the varying associations between MPEs and overhead ionospheric current systems including electrojets and the field- aligned like currents. We find 225 of 279 MPEs occurred within the westward electrojet and only 3 within the eastward electrojet. For the premidnight MPEs 100 of 230 events occurred within the Harang current system while many of the remainder occurred within either the downward region 1 current system or the upward region 2 current system. Many of the 49 postmidnight MPEs occurred in either the downward region 1 (11 events) or upward region 2 current system (27 events). These result suggest that the source of MPEs in the premidnight sector is somewhere between the inner to mid plasma sheet and the source for the MPEs in the postmidnight sector is somewhere between the inner magnetosphere and the inner plasma sheet.Key PointsMagnetic perturbation events most frequently occur within a westward electrojetPremidnight MPEs commonly occur within the Harang current system and Postmidnight MPEs commonly occur within the region 2 upward currentsMagnetic perturbation events with all sky image data display a sudden brightening and distortion of auroral arcs Peer Reviewed http://deepblue.lib.umich.edu/bitstream/2027.42/171034/1/jgra56825.pdf ...
format Article in Journal/Newspaper
genre Arctic
Arctic
Cape Dorset
Kuujjuarapik
genre_facet Arctic
Arctic
Cape Dorset
Kuujjuarapik
geographic Arctic
Canada
Cape Dorset
Kuujjuarapik
geographic_facet Arctic
Canada
Cape Dorset
Kuujjuarapik
id ftumdeepblue:oai:deepblue.lib.umich.edu:2027.42/171034
institution Open Polar
language unknown
long_lat ENVELOPE(-76.482,-76.482,64.179,64.179)
ENVELOPE(-77.762,-77.762,55.276,55.276)
op_collection_id ftumdeepblue
op_relation https://hdl.handle.net/2027.42/171034
doi:10.1029/2021JA029839
Journal of Geophysical Research: Space Physics
Apatenkov, S. V., Pilipenko, V. A., Gordeev, E. I., Viljanen, A., Juusola, L., Belakhovsky, V. B., & Selivanov, V. N. ( 2020 ). Auroral omega bands are a significant cause of large geomagnetically induced currents. Geophysical Research Letters, 47, e2019GL086677. https://doi.org/10.1029/2019GL086677
Belakhovsky, V., Pilipenko, V., Engebretson, M., Sakharov, Y., & Selivanov, V. ( 2019 ). Impulsive disturbances of the geomagnetic field as a cause of induced currents of electric power lines. Journal of Space Weather and Space Climate, 9, A18. https://doi.org/10.1051/swsc/2019015
Dimmock, A. P., Welling, D. T., Rosenqvist, L., Forsyth, C., Freeman, M. P., Rae, I. J., et al. ( 2021 ). Modeling the geomagnetic response to the September 2017 space weather event over Fennoscandia using the Space Weather Modeling Framework: Studying the impacts of spatial resolution. Space Weather, 19 (5), e2020SW002683. https://doi.org/10.1029/2020SW002683
Engebretson, M. J., Ahmed, L. Y., Pilipenko, V. A., Steinmetz, E. S., Moldwin, M. B., Connors, M. G., et al. ( 2021b ). Superposed epoch analysis of nighttime magnetic perturbation events observed in Arctic Canada submitted to the. Journal of Geophysical Research: Space Physics, 19, 2021JA029465. https://doi.org/10.1029/2020sw002526
Engebretson, M. J., Kirkevold, K. R., Steinmetz, E. S., Pilipenko, V. A., Moldwin, M. B., McCuen, B. A., et al. ( 2020 ). Interhemispheric comparisons of large nighttime magnetic perturbation events relevant to GICs. Journal of Geophysical Research: SpacePhysics, 125, e2020JA028128. https://doi.org/10.1029/2020JA028128
Engebretson, M. J., Pilipenko, V. A., Steinmetz, E. S., Moldwin, M. B., Connors, M. G., Boteler, D. H., et al. ( 2021a ). Nighttime magnetic perturbation events observed in Arctic Canada: 3. Occurrence and amplitude as functions of magnetic latitude, local time, and magnetic disturbances. Space Weather, 19, e2020SW002526. https://doi.org/10.1029/2020SW002526
Huttunen, K. E. J., Koskinen, H. E. J., Pulkkinen, T. I., Pulkkinen, A., Palmroth, M., Reeves, E. G. D., & Singer, H. J. ( 2002 ). April 2000 magnetic storm: Solar wind driver and magnetospheric response. Journal of Geophysical Research, 107 ( A12 ), 1440. https://doi.org/10.1029/2001JA009154
Newell, P. T., & Gjerloev, J. W. ( 2011 ). Evaluation of SuperMAG auroral electrojet indices as indicators of substorms and auroral power. Journal of Geophysical Research, 116, A12211. https://doi.org/10.1029/2011JA016779
Ohtani, S., & Gjerloev, J. W. ( 2020 ). Is the substorm current wedge an ensemble of wedgelets?: Revisit to midlatitude positive bays. Journal of Geophysical Research: Space Physics, 125, e2020JA027902. https://doi.org/10.1029/2020JA027902
Weygand, J. M. ( 2009a ). Equivalent Ionospheric Currents (EICs) derived using the Spherical Elementary Currrent Systems (SECS) technique at 10 s Resolution in Geographic Coordinates. University of California. https://doi.org/10.21978/P8D62B
Weygand, J. M. ( 2009b ). Spherical Elementary Current (SEC) Amplitudes derived using the Spherical Elementary Currents Systems (SECS) technique at 10 sec Resolution in Geographic Coordinates. UCLA. https://doi.org/10.21978/P8PP8X
Weygand, J. M., Amm, O., Viljanen, A., Angelopoulos, V., Murr, D., Engebretson, M. J., et al. ( 2011 ). Application and validation of the spherical elementary currents systems technique for deriving ionospheric equivalent currents with the North American and Greenland ground magnetometer arrays. Journal of Geophysical Research, 116, A03305. https://doi.org/10.1029/2010JA016177
Weygand, J. M., Kivelson, M. G., Khurana, K. K., Schwarzl, H. K., Thompson, S. M., McPherron, R. L., et al. ( 2005 ). Plasma sheet turbulence observed by Cluster II. Journal of Geophysical Research, 110, A01205. https://doi.org/10.1029/2004JA010581
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publisher University of California
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spelling ftumdeepblue:oai:deepblue.lib.umich.edu:2027.42/171034 2025-06-15T14:17:45+00:00 SECS Analysis of Nighttime Magnetic Perturbation Events Observed in Arctic Canada Weygand, James M. Engebretson, Mark J. Pilipenko, Viacheslav A. Steinmetz, Erik S. Moldwin, Mark B. Connors, Martin G. Nishimura, Yukitoshi Lyons, Larry R. Russell, Christopher T. Ohtani, Shin‐Ichi Gjerloev, Jesper 2021-11 application/pdf https://hdl.handle.net/2027.42/171034 https://doi.org/10.1029/2021JA029839 unknown University of California Wiley Periodicals, Inc. https://hdl.handle.net/2027.42/171034 doi:10.1029/2021JA029839 Journal of Geophysical Research: Space Physics Apatenkov, S. V., Pilipenko, V. A., Gordeev, E. I., Viljanen, A., Juusola, L., Belakhovsky, V. B., & Selivanov, V. N. ( 2020 ). Auroral omega bands are a significant cause of large geomagnetically induced currents. Geophysical Research Letters, 47, e2019GL086677. https://doi.org/10.1029/2019GL086677 Belakhovsky, V., Pilipenko, V., Engebretson, M., Sakharov, Y., & Selivanov, V. ( 2019 ). Impulsive disturbances of the geomagnetic field as a cause of induced currents of electric power lines. Journal of Space Weather and Space Climate, 9, A18. https://doi.org/10.1051/swsc/2019015 Dimmock, A. P., Welling, D. T., Rosenqvist, L., Forsyth, C., Freeman, M. P., Rae, I. J., et al. ( 2021 ). Modeling the geomagnetic response to the September 2017 space weather event over Fennoscandia using the Space Weather Modeling Framework: Studying the impacts of spatial resolution. Space Weather, 19 (5), e2020SW002683. https://doi.org/10.1029/2020SW002683 Engebretson, M. J., Ahmed, L. Y., Pilipenko, V. A., Steinmetz, E. S., Moldwin, M. B., Connors, M. G., et al. ( 2021b ). Superposed epoch analysis of nighttime magnetic perturbation events observed in Arctic Canada submitted to the. Journal of Geophysical Research: Space Physics, 19, 2021JA029465. https://doi.org/10.1029/2020sw002526 Engebretson, M. J., Kirkevold, K. R., Steinmetz, E. S., Pilipenko, V. A., Moldwin, M. B., McCuen, B. A., et al. ( 2020 ). Interhemispheric comparisons of large nighttime magnetic perturbation events relevant to GICs. Journal of Geophysical Research: SpacePhysics, 125, e2020JA028128. https://doi.org/10.1029/2020JA028128 Engebretson, M. J., Pilipenko, V. A., Steinmetz, E. S., Moldwin, M. B., Connors, M. G., Boteler, D. H., et al. ( 2021a ). Nighttime magnetic perturbation events observed in Arctic Canada: 3. Occurrence and amplitude as functions of magnetic latitude, local time, and magnetic disturbances. Space Weather, 19, e2020SW002526. https://doi.org/10.1029/2020SW002526 Huttunen, K. E. J., Koskinen, H. E. J., Pulkkinen, T. I., Pulkkinen, A., Palmroth, M., Reeves, E. G. D., & Singer, H. J. ( 2002 ). April 2000 magnetic storm: Solar wind driver and magnetospheric response. Journal of Geophysical Research, 107 ( A12 ), 1440. https://doi.org/10.1029/2001JA009154 Newell, P. T., & Gjerloev, J. W. ( 2011 ). Evaluation of SuperMAG auroral electrojet indices as indicators of substorms and auroral power. Journal of Geophysical Research, 116, A12211. https://doi.org/10.1029/2011JA016779 Ohtani, S., & Gjerloev, J. W. ( 2020 ). Is the substorm current wedge an ensemble of wedgelets?: Revisit to midlatitude positive bays. Journal of Geophysical Research: Space Physics, 125, e2020JA027902. https://doi.org/10.1029/2020JA027902 Weygand, J. M. ( 2009a ). Equivalent Ionospheric Currents (EICs) derived using the Spherical Elementary Currrent Systems (SECS) technique at 10 s Resolution in Geographic Coordinates. University of California. https://doi.org/10.21978/P8D62B Weygand, J. M. ( 2009b ). Spherical Elementary Current (SEC) Amplitudes derived using the Spherical Elementary Currents Systems (SECS) technique at 10 sec Resolution in Geographic Coordinates. UCLA. https://doi.org/10.21978/P8PP8X Weygand, J. M., Amm, O., Viljanen, A., Angelopoulos, V., Murr, D., Engebretson, M. J., et al. ( 2011 ). Application and validation of the spherical elementary currents systems technique for deriving ionospheric equivalent currents with the North American and Greenland ground magnetometer arrays. Journal of Geophysical Research, 116, A03305. https://doi.org/10.1029/2010JA016177 Weygand, J. M., Kivelson, M. G., Khurana, K. K., Schwarzl, H. K., Thompson, S. M., McPherron, R. L., et al. ( 2005 ). Plasma sheet turbulence observed by Cluster II. Journal of Geophysical Research, 110, A01205. https://doi.org/10.1029/2004JA010581 IndexNoFollow magnetic perturbation events spherical elementary currents substorms ground magnetometer data ionospheric currents Astronomy and Astrophysics Science Article 2021 ftumdeepblue 2025-06-04T05:59:24Z Large changes of the magnetic field associated with magnetic perturbation events (MPEs) with amplitudes |Î B| of hundreds of nT and 5- 10 min duration have been frequently observed within a few hours of midnight. This study compares the statistical location of nighttime MPEs with |dB/dt| - ¥ 6 nT/s within the auroral current system observed during 2015 and 2017 at two stations, Cape Dorset and Kuujjuarapik, in Eastern Canada. Maps of the two dimensional nightside auroral current system were derived using the Spherical Elementary Current Systems (SECS) technique. Analyses were produced at each station for all events, and for premidnight and postmidnight subsets. We examine four MPE intervals in detail, two accompanied by auroral images, and show the varying associations between MPEs and overhead ionospheric current systems including electrojets and the field- aligned like currents. We find 225 of 279 MPEs occurred within the westward electrojet and only 3 within the eastward electrojet. For the premidnight MPEs 100 of 230 events occurred within the Harang current system while many of the remainder occurred within either the downward region 1 current system or the upward region 2 current system. Many of the 49 postmidnight MPEs occurred in either the downward region 1 (11 events) or upward region 2 current system (27 events). These result suggest that the source of MPEs in the premidnight sector is somewhere between the inner to mid plasma sheet and the source for the MPEs in the postmidnight sector is somewhere between the inner magnetosphere and the inner plasma sheet.Key PointsMagnetic perturbation events most frequently occur within a westward electrojetPremidnight MPEs commonly occur within the Harang current system and Postmidnight MPEs commonly occur within the region 2 upward currentsMagnetic perturbation events with all sky image data display a sudden brightening and distortion of auroral arcs Peer Reviewed http://deepblue.lib.umich.edu/bitstream/2027.42/171034/1/jgra56825.pdf ... Article in Journal/Newspaper Arctic Arctic Cape Dorset Kuujjuarapik Unknown Arctic Canada Cape Dorset ENVELOPE(-76.482,-76.482,64.179,64.179) Kuujjuarapik ENVELOPE(-77.762,-77.762,55.276,55.276) Journal of Geophysical Research: Space Physics 126 11
spellingShingle magnetic perturbation events
spherical elementary currents
substorms
ground magnetometer data
ionospheric currents
Astronomy and Astrophysics
Science
Weygand, James M.
Engebretson, Mark J.
Pilipenko, Viacheslav A.
Steinmetz, Erik S.
Moldwin, Mark B.
Connors, Martin G.
Nishimura, Yukitoshi
Lyons, Larry R.
Russell, Christopher T.
Ohtani, Shin‐Ichi
Gjerloev, Jesper
SECS Analysis of Nighttime Magnetic Perturbation Events Observed in Arctic Canada
title SECS Analysis of Nighttime Magnetic Perturbation Events Observed in Arctic Canada
title_full SECS Analysis of Nighttime Magnetic Perturbation Events Observed in Arctic Canada
title_fullStr SECS Analysis of Nighttime Magnetic Perturbation Events Observed in Arctic Canada
title_full_unstemmed SECS Analysis of Nighttime Magnetic Perturbation Events Observed in Arctic Canada
title_short SECS Analysis of Nighttime Magnetic Perturbation Events Observed in Arctic Canada
title_sort secs analysis of nighttime magnetic perturbation events observed in arctic canada
topic magnetic perturbation events
spherical elementary currents
substorms
ground magnetometer data
ionospheric currents
Astronomy and Astrophysics
Science
topic_facet magnetic perturbation events
spherical elementary currents
substorms
ground magnetometer data
ionospheric currents
Astronomy and Astrophysics
Science
url https://hdl.handle.net/2027.42/171034
https://doi.org/10.1029/2021JA029839

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