The Brightening History of Poleward-Moving Auroral Forms

Poleward-Moving Auroral Forms (PMAFs) are believed to be the ionospheric footprints of magnetic flux tubes resulting from reconnection occurring at the dayside magnetopause. PMAFs initially brighten on the poleward edge of the auroral oval. After the initial brightening the PMAF begins to move polew...

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Main Authors: Brandt, Taylor G, Fasel, Gerard, Rothballer, Ashley, Fox, Ben, Booth, Alex, Gribble, Michael, Nam, Connor, Grittner, Paige, Chibwe, Kaseba, Harper, Emma, Joubert, Jacques, Cook, David, Kim, Uni, Lockwood, Rachel, Raeth, Simone, Lammerding, Charles, Riley, Josh, Golla, Ashley, Sigernes, Fred, Lorentzen, Dag A, Mills, Juliet, Frizzelle, Karin
Format: Text
Language:unknown
Published: Pepperdine Digital Commons 2017
Subjects:
Poleward
Moving
Auroral
Forms
PMAF
PMAFs
Brightening
Bz
IMF
Other Physics
Longyearbyen
Online Access:https://digitalcommons.pepperdine.edu/scursas/2017/posters/24
https://digitalcommons.pepperdine.edu/context/scursas/article/1317/type/native/viewcontent
id ftpepperdineuniv:oai:digitalcommons.pepperdine.edu:scursas-1317
record_format openpolar
spelling ftpepperdineuniv:oai:digitalcommons.pepperdine.edu:scursas-1317 2023-05-15T17:08:29+02:00 The Brightening History of Poleward-Moving Auroral Forms Brandt, Taylor G Fasel, Gerard Rothballer, Ashley Fox, Ben Booth, Alex Gribble, Michael Nam, Connor Grittner, Paige Chibwe, Kaseba Harper, Emma Joubert, Jacques Cook, David Kim, Uni Lockwood, Rachel Raeth, Simone Lammerding, Charles Riley, Josh Golla, Ashley Sigernes, Fred Lorentzen, Dag A Mills, Juliet Frizzelle, Karin 2017-03-24T21:00:00Z image/jpg https://digitalcommons.pepperdine.edu/scursas/2017/posters/24 https://digitalcommons.pepperdine.edu/context/scursas/article/1317/type/native/viewcontent unknown Pepperdine Digital Commons https://digitalcommons.pepperdine.edu/scursas/2017/posters/24 https://digitalcommons.pepperdine.edu/context/scursas/article/1317/type/native/viewcontent Seaver College Research And Scholarly Achievement Symposium Poleward Moving Auroral Forms PMAF PMAFs Brightening Bz IMF Other Physics text 2017 ftpepperdineuniv 2021-12-21T10:51:35Z Poleward-Moving Auroral Forms (PMAFs) are believed to be the ionospheric footprints of magnetic flux tubes resulting from reconnection occurring at the dayside magnetopause. PMAFs initially brighten on the poleward edge of the auroral oval. After the initial brightening the PMAF begins to move poleward. The PMAF may re-brighten during its poleward motion. This study looks at the brightening history of the PMAF during its poleward motion. When the PMAF re-brightens the brightening occurs at a point on the auroral arc. This re-brightening occurs either on the westward or eastward side of the auroral arc. The brightening then spreads eastward if the re-brightening occurs on the westward portion of the arc or westward if the re-brightening occurs on the eastward portion of the arc. This brightening pattern is generally uniform for any particular day. The optical ground-based data was obtained from the Kjell Henriksen Observatory in Longyearbyen. Over 55 PMAFs were included in this study. Text Longyearbyen Pepperdine University: Pepperdine Digital Commons Longyearbyen
institution Open Polar
collection Pepperdine University: Pepperdine Digital Commons
op_collection_id ftpepperdineuniv
language unknown
topic Poleward
Moving
Auroral
Forms
PMAF
PMAFs
Brightening
Bz
IMF
Other Physics
spellingShingle Poleward
Moving
Auroral
Forms
PMAF
PMAFs
Brightening
Bz
IMF
Other Physics
Brandt, Taylor G
Fasel, Gerard
Rothballer, Ashley
Fox, Ben
Booth, Alex
Gribble, Michael
Nam, Connor
Grittner, Paige
Chibwe, Kaseba
Harper, Emma
Joubert, Jacques
Cook, David
Kim, Uni
Lockwood, Rachel
Raeth, Simone
Lammerding, Charles
Riley, Josh
Golla, Ashley
Sigernes, Fred
Lorentzen, Dag A
Mills, Juliet
Frizzelle, Karin
The Brightening History of Poleward-Moving Auroral Forms
topic_facet Poleward
Moving
Auroral
Forms
PMAF
PMAFs
Brightening
Bz
IMF
Other Physics
description Poleward-Moving Auroral Forms (PMAFs) are believed to be the ionospheric footprints of magnetic flux tubes resulting from reconnection occurring at the dayside magnetopause. PMAFs initially brighten on the poleward edge of the auroral oval. After the initial brightening the PMAF begins to move poleward. The PMAF may re-brighten during its poleward motion. This study looks at the brightening history of the PMAF during its poleward motion. When the PMAF re-brightens the brightening occurs at a point on the auroral arc. This re-brightening occurs either on the westward or eastward side of the auroral arc. The brightening then spreads eastward if the re-brightening occurs on the westward portion of the arc or westward if the re-brightening occurs on the eastward portion of the arc. This brightening pattern is generally uniform for any particular day. The optical ground-based data was obtained from the Kjell Henriksen Observatory in Longyearbyen. Over 55 PMAFs were included in this study.
format Text
author Brandt, Taylor G
Fasel, Gerard
Rothballer, Ashley
Fox, Ben
Booth, Alex
Gribble, Michael
Nam, Connor
Grittner, Paige
Chibwe, Kaseba
Harper, Emma
Joubert, Jacques
Cook, David
Kim, Uni
Lockwood, Rachel
Raeth, Simone
Lammerding, Charles
Riley, Josh
Golla, Ashley
Sigernes, Fred
Lorentzen, Dag A
Mills, Juliet
Frizzelle, Karin
author_facet Brandt, Taylor G
Fasel, Gerard
Rothballer, Ashley
Fox, Ben
Booth, Alex
Gribble, Michael
Nam, Connor
Grittner, Paige
Chibwe, Kaseba
Harper, Emma
Joubert, Jacques
Cook, David
Kim, Uni
Lockwood, Rachel
Raeth, Simone
Lammerding, Charles
Riley, Josh
Golla, Ashley
Sigernes, Fred
Lorentzen, Dag A
Mills, Juliet
Frizzelle, Karin
author_sort Brandt, Taylor G
title The Brightening History of Poleward-Moving Auroral Forms
title_short The Brightening History of Poleward-Moving Auroral Forms
title_full The Brightening History of Poleward-Moving Auroral Forms
title_fullStr The Brightening History of Poleward-Moving Auroral Forms
title_full_unstemmed The Brightening History of Poleward-Moving Auroral Forms
title_sort brightening history of poleward-moving auroral forms
publisher Pepperdine Digital Commons
publishDate 2017
url https://digitalcommons.pepperdine.edu/scursas/2017/posters/24
https://digitalcommons.pepperdine.edu/context/scursas/article/1317/type/native/viewcontent
geographic Longyearbyen
geographic_facet Longyearbyen
genre Longyearbyen
genre_facet Longyearbyen
op_source Seaver College Research And Scholarly Achievement Symposium
op_relation https://digitalcommons.pepperdine.edu/scursas/2017/posters/24
https://digitalcommons.pepperdine.edu/context/scursas/article/1317/type/native/viewcontent
_version_ 1766064263182417920

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