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Tracking counterpart signatures in Saturn's auroras and ENA imagery during large-scale plasma injection events

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Tracking counterpart signatures in Saturn's auroras and ENA imagery during large-scale plasma injection events. / Kinrade, Joe; Badman, Sarah; Paranicas, C. et al.
In: Journal of Geophysical Research: Space Physics, Vol. 152, No. 2, e2019JA027542, 03.02.2020.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Kinrade, J, Badman, S, Paranicas, C, Mitchell, DG, Arridge, C, Gray, R, Bader, A, Provan, G, Cowley, SWH, Martin, C & Achilleos, N 2020, 'Tracking counterpart signatures in Saturn's auroras and ENA imagery during large-scale plasma injection events', Journal of Geophysical Research: Space Physics, vol. 152, no. 2, e2019JA027542. https://doi.org/10.1029/2019JA027542

APA

Kinrade, J., Badman, S., Paranicas, C., Mitchell, D. G., Arridge, C., Gray, R., Bader, A., Provan, G., Cowley, S. W. H., Martin, C., & Achilleos, N. (2020). Tracking counterpart signatures in Saturn's auroras and ENA imagery during large-scale plasma injection events. Journal of Geophysical Research: Space Physics, 152(2), Article e2019JA027542. https://doi.org/10.1029/2019JA027542

Vancouver

Kinrade J, Badman S, Paranicas C, Mitchell DG, Arridge C, Gray R et al. Tracking counterpart signatures in Saturn's auroras and ENA imagery during large-scale plasma injection events. Journal of Geophysical Research: Space Physics. 2020 Feb 3;152(2):e2019JA027542. doi: 10.1029/2019JA027542

Author

Kinrade, Joe ; Badman, Sarah ; Paranicas, C. et al. / Tracking counterpart signatures in Saturn's auroras and ENA imagery during large-scale plasma injection events. In: Journal of Geophysical Research: Space Physics. 2020 ; Vol. 152, No. 2.

Bibtex

@article{3d40dce949e94754b610ea485693ec11,
title = "Tracking counterpart signatures in Saturn's auroras and ENA imagery during large-scale plasma injection events",
abstract = "Saturn's morningside auroras consist mainly of rotating, transient emission patches, following periodic reconnection in the magnetotail. Simultaneous responses in global energetic neutral atom (ENA) emissions have been observed at similar local times, suggesting a link between the auroras and large‐scale injections of hot ions in the outer magnetosphere. In this study, we use Cassini's remote sensing instruments to observe multiple plasma injection signatures within coincident auroral and ENA imagery, captured during 9 April 2014. Kilometric radio emissions also indicate clear injection activity. We track the motion of rotating signatures in the auroras and ENAs to test their local time relationship. Two successive auroral signatures—separated by ~4 hr UT—form postmidnight before rotating to the dayside while moving equatorward. The first has a clear ENA counterpart, maintaining a similar local time mapping throughout ~9 hr observation. Mapping of the ionospheric equatorward motion post‐dawn indicates a factor ~5 reduction of the magnetospheric source region's radial speed at a distance of ~14‐20 RS, possibly a plasma or magnetic boundary. The second auroral signature has no clear ENA counterpart; viewing geometry was relatively unchanged, so the ENAs were likely too weak to detect by this time. A third, older injection signature, seen in both auroral and ENA imagery on the nightside, may have been sustained by field‐aligned currents linked with the southern planetary period oscillation system, or the re‐energization of ENAs around midnight local times. The ENA injection signatures form near magnetic longitudes associated with magnetotail thinning.",
keywords = "Saturn's auroras, auroras, Cassini, magnetospheric dynamics, energetic neutral atoms, Saturn",
author = "Joe Kinrade and Sarah Badman and C. Paranicas and Mitchell, {Donald. G.} and Chris Arridge and Rebecca Gray and Alexander Bader and G. Provan and Cowley, {S. W. H.} and Carley Martin and Nicholas Achilleos",
year = "2020",
month = feb,
day = "3",
doi = "10.1029/2019JA027542",
language = "English",
volume = "152",
journal = "Journal of Geophysical Research: Space Physics",
issn = "2169-9402",
publisher = "Blackwell Publishing Ltd",
number = "2",

}

RIS

TY - JOUR

T1 - Tracking counterpart signatures in Saturn's auroras and ENA imagery during large-scale plasma injection events

AU - Kinrade, Joe

AU - Badman, Sarah

AU - Paranicas, C.

AU - Mitchell, Donald. G.

AU - Arridge, Chris

AU - Gray, Rebecca

AU - Bader, Alexander

AU - Provan, G.

AU - Cowley, S. W. H.

AU - Martin, Carley

AU - Achilleos, Nicholas

PY - 2020/2/3

Y1 - 2020/2/3

N2 - Saturn's morningside auroras consist mainly of rotating, transient emission patches, following periodic reconnection in the magnetotail. Simultaneous responses in global energetic neutral atom (ENA) emissions have been observed at similar local times, suggesting a link between the auroras and large‐scale injections of hot ions in the outer magnetosphere. In this study, we use Cassini's remote sensing instruments to observe multiple plasma injection signatures within coincident auroral and ENA imagery, captured during 9 April 2014. Kilometric radio emissions also indicate clear injection activity. We track the motion of rotating signatures in the auroras and ENAs to test their local time relationship. Two successive auroral signatures—separated by ~4 hr UT—form postmidnight before rotating to the dayside while moving equatorward. The first has a clear ENA counterpart, maintaining a similar local time mapping throughout ~9 hr observation. Mapping of the ionospheric equatorward motion post‐dawn indicates a factor ~5 reduction of the magnetospheric source region's radial speed at a distance of ~14‐20 RS, possibly a plasma or magnetic boundary. The second auroral signature has no clear ENA counterpart; viewing geometry was relatively unchanged, so the ENAs were likely too weak to detect by this time. A third, older injection signature, seen in both auroral and ENA imagery on the nightside, may have been sustained by field‐aligned currents linked with the southern planetary period oscillation system, or the re‐energization of ENAs around midnight local times. The ENA injection signatures form near magnetic longitudes associated with magnetotail thinning.

AB - Saturn's morningside auroras consist mainly of rotating, transient emission patches, following periodic reconnection in the magnetotail. Simultaneous responses in global energetic neutral atom (ENA) emissions have been observed at similar local times, suggesting a link between the auroras and large‐scale injections of hot ions in the outer magnetosphere. In this study, we use Cassini's remote sensing instruments to observe multiple plasma injection signatures within coincident auroral and ENA imagery, captured during 9 April 2014. Kilometric radio emissions also indicate clear injection activity. We track the motion of rotating signatures in the auroras and ENAs to test their local time relationship. Two successive auroral signatures—separated by ~4 hr UT—form postmidnight before rotating to the dayside while moving equatorward. The first has a clear ENA counterpart, maintaining a similar local time mapping throughout ~9 hr observation. Mapping of the ionospheric equatorward motion post‐dawn indicates a factor ~5 reduction of the magnetospheric source region's radial speed at a distance of ~14‐20 RS, possibly a plasma or magnetic boundary. The second auroral signature has no clear ENA counterpart; viewing geometry was relatively unchanged, so the ENAs were likely too weak to detect by this time. A third, older injection signature, seen in both auroral and ENA imagery on the nightside, may have been sustained by field‐aligned currents linked with the southern planetary period oscillation system, or the re‐energization of ENAs around midnight local times. The ENA injection signatures form near magnetic longitudes associated with magnetotail thinning.

KW - Saturn's auroras

KW - auroras

KW - Cassini

KW - magnetospheric dynamics

KW - energetic neutral atoms

KW - Saturn

U2 - 10.1029/2019JA027542

DO - 10.1029/2019JA027542

M3 - Journal article

VL - 152

JO - Journal of Geophysical Research: Space Physics

JF - Journal of Geophysical Research: Space Physics

SN - 2169-9402

IS - 2

M1 - e2019JA027542

ER -