Simultaneous Cassini VIMS and UVIS observations of Saturn's southern aurora: Comparing emissions from H, H2 and H3+ at a high spatial resolution

H. Melin; T. Stallard; S. Miller; J. Gustin; Yarin Gal; M. Turton; S. V. Badman; W. R. Pryor; J. O'Donoghue; R. H. Brown; K. H. Baines

doi:10.1029/2011GL048457

Simultaneous Cassini VIMS and UVIS observations of Saturn's southern aurora: Comparing emissions from H, H2 and H3+ at a high spatial resolution

H. Melin^*, T. Stallard, S. Miller, J. Gustin, Yarin Gal, M. Turton, S. V. Badman, W. R. Pryor, J. O'Donoghue, R. H. Brown, K. H. Baines

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

[1] Here, for the first time, temporally coincident and spatially overlapping Cassini VIMS and UVIS observations of Saturn's southern aurora are presented. Ultraviolet auroral H and H2 emissions from UVIS are compared to infrared H3+ emission from VIMS. The auroral emission is structured into three arcs – H, H2 and H3+ are morphologically identical in the bright main auroral oval (∼73°S), but there is an equatorward arc that is seen predominantly in H (∼70°S), and a poleward arc (∼74°S) that is seen mainly in H2 and H3+. These observations indicate that, for the main auroral oval, UV emission is a good proxy for the infrared H3+ morphology (and vice versa), but for emission either poleward or equatorward this is no longer true. Hence, simultaneous UV/IR observations are crucial for completing the picture of how the atmosphere interacts with the magnetosphere.

Original language	English
Article number	L15203
Number of pages	5
Journal	Geophysical Research Letters
Volume	38
Issue number	15
DOIs	https://doi.org/10.1029/2011GL048457
Publication status	Published - 1 Aug 2011
Externally published	Yes

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Melin, H., Stallard, T., Miller, S., Gustin, J., Gal, Y., Turton, M., Badman, S. V., Pryor, W. R., O'Donoghue, J., Brown, R. H., & Baines, K. H. (2011). Simultaneous Cassini VIMS and UVIS observations of Saturn's southern aurora: Comparing emissions from H, H2 and H3+ at a high spatial resolution. Geophysical Research Letters, 38(15), Article L15203. https://doi.org/10.1029/2011GL048457

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title = "Simultaneous Cassini VIMS and UVIS observations of Saturn's southern aurora: Comparing emissions from H, H2 and H3+ at a high spatial resolution",

abstract = "[1] Here, for the first time, temporally coincident and spatially overlapping Cassini VIMS and UVIS observations of Saturn's southern aurora are presented. Ultraviolet auroral H and H2 emissions from UVIS are compared to infrared H3+ emission from VIMS. The auroral emission is structured into three arcs – H, H2 and H3+ are morphologically identical in the bright main auroral oval (∼73°S), but there is an equatorward arc that is seen predominantly in H (∼70°S), and a poleward arc (∼74°S) that is seen mainly in H2 and H3+. These observations indicate that, for the main auroral oval, UV emission is a good proxy for the infrared H3+ morphology (and vice versa), but for emission either poleward or equatorward this is no longer true. Hence, simultaneous UV/IR observations are crucial for completing the picture of how the atmosphere interacts with the magnetosphere.",

author = "H. Melin and T. Stallard and S. Miller and J. Gustin and Yarin Gal and M. Turton and Badman, \{S. V.\} and Pryor, \{W. R.\} and J. O'Donoghue and Brown, \{R. H.\} and Baines, \{K. H.\}",

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Melin, H , Stallard, T, Miller, S, Gustin, J, Gal, Y, Turton, M, Badman, SV, Pryor, WR, O'Donoghue, J, Brown, RH & Baines, KH 2011, 'Simultaneous Cassini VIMS and UVIS observations of Saturn's southern aurora: Comparing emissions from H, H2 and H3+ at a high spatial resolution', Geophysical Research Letters, vol. 38, no. 15, L15203. https://doi.org/10.1029/2011GL048457

TY - JOUR

T1 - Simultaneous Cassini VIMS and UVIS observations of Saturn's southern aurora: Comparing emissions from H, H2 and H3+ at a high spatial resolution

AU - Melin, H.

AU - Stallard, T.

AU - Miller, S.

AU - Gustin, J.

AU - Gal, Yarin

AU - Turton, M.

AU - Badman, S. V.

AU - Pryor, W. R.

AU - O'Donoghue, J.

AU - Brown, R. H.

AU - Baines, K. H.

PY - 2011/8/1

Y1 - 2011/8/1

N2 - [1] Here, for the first time, temporally coincident and spatially overlapping Cassini VIMS and UVIS observations of Saturn's southern aurora are presented. Ultraviolet auroral H and H2 emissions from UVIS are compared to infrared H3+ emission from VIMS. The auroral emission is structured into three arcs – H, H2 and H3+ are morphologically identical in the bright main auroral oval (∼73°S), but there is an equatorward arc that is seen predominantly in H (∼70°S), and a poleward arc (∼74°S) that is seen mainly in H2 and H3+. These observations indicate that, for the main auroral oval, UV emission is a good proxy for the infrared H3+ morphology (and vice versa), but for emission either poleward or equatorward this is no longer true. Hence, simultaneous UV/IR observations are crucial for completing the picture of how the atmosphere interacts with the magnetosphere.

AB - [1] Here, for the first time, temporally coincident and spatially overlapping Cassini VIMS and UVIS observations of Saturn's southern aurora are presented. Ultraviolet auroral H and H2 emissions from UVIS are compared to infrared H3+ emission from VIMS. The auroral emission is structured into three arcs – H, H2 and H3+ are morphologically identical in the bright main auroral oval (∼73°S), but there is an equatorward arc that is seen predominantly in H (∼70°S), and a poleward arc (∼74°S) that is seen mainly in H2 and H3+. These observations indicate that, for the main auroral oval, UV emission is a good proxy for the infrared H3+ morphology (and vice versa), but for emission either poleward or equatorward this is no longer true. Hence, simultaneous UV/IR observations are crucial for completing the picture of how the atmosphere interacts with the magnetosphere.

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U2 - 10.1029/2011GL048457

DO - 10.1029/2011GL048457

M3 - Article

SN - 0094-8276

VL - 38

JO - Geophysical Research Letters

JF - Geophysical Research Letters

IS - 15

M1 - L15203

ER -

Simultaneous Cassini VIMS and UVIS observations of Saturn's southern aurora: Comparing emissions from H, H2 and H3+ at a high spatial resolution

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