Ionospheric plasma parameters measured by SPIDER-2 sounding rocket during a pulsating aurora event
Ionospheric plasma parameters measured by SPIDER-2 sounding rocket during a pulsating aurora event
The Small Payloads for Investigation of Disturbances in Electrojet by Rockets 2 (SPIDER-2) sounding rocket was launched from Esrange, Sweden, on the 19th of February 2020 at 23:14 UT. It traversed a pulsating aurora event, deploying eight free falling units which provided in situ multi-point measurements of the electric field, magnetic field and plasma parameters. In this article, the measured plasma parameters have been analyzed and compared with each other and with optical measurements obtained by ground based instrumentation. Peaks in electron density, thermal ion flux and optical emission have been found in the E region. Electron density profiles have been derived from the data collected by the Langmuir probes in two free falling units, the electron probes in the main rocket and the wave propagation experiment. A generally good agreement has been found among the different measurements in the up-leg of the trajectory, while the effect of the rocket wake was evident in the down-leg. The observed electron density profile has been found to agree with an incoming flux of high energetic electrons with energies around 20 keV. Auroral pulsations with a periodicity of 1–2 s have been recorded by an onboard photometer, a ground-based high speed camera, and the in situ thermal ion flux. The percentages of variation between the ON and OFF phases of the pulsations have been quantified for these quantities. The brightness measured by the photometer varies up to 68%, while the thermal ion flux measurements show only a 2.5% variation.
Langmuir probes, ionosphere, pulsating aurora, sounding rocket
Pérez-Coll Jiménez, Judit
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Ivchenko, Nickolay
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Sergienko, Tima
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Strelnikov, Boris
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Hedin, Jonas
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Whiter, Daniel K.
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Brändström, Urban
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Giono, Gabriel
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Tolis, Christos
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Yokoyama, Yoshihiro
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Hosokawa, Keisuke
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Ogawa, Yasunobu
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10 February 2025
Pérez-Coll Jiménez, Judit
032d7e85-3670-47b2-ace6-10e4ef730ed9
Ivchenko, Nickolay
99752978-8a44-4c2e-8c4a-984575a88f8f
Sergienko, Tima
3ec9fa04-af59-4f04-88de-f9b5c6c625bd
Strelnikov, Boris
ccc58c23-51d2-4318-b18d-edb6b94a47bb
Hedin, Jonas
e5fe2a57-660e-4cc2-ba52-0201648072e0
Whiter, Daniel K.
9a30d7b6-ea41-44fb-bd52-3ff1964eca5c
Brändström, Urban
d7c6c76d-e905-4948-acad-76783aebcd85
Giono, Gabriel
7b869279-ad74-4bf0-8e3c-e2cf010ca2aa
Tolis, Christos
00d57f8f-a5b7-4dd8-b6ab-bc908a0663e3
Yokoyama, Yoshihiro
dd0146f2-0f3e-45b5-b1eb-e3ee7633b4c4
Hosokawa, Keisuke
1f40cdcc-e806-4d4b-86e6-e677d43097fc
Ogawa, Yasunobu
85325b9b-6c1e-49a2-9b56-2cec15e5c852
Pérez-Coll Jiménez, Judit, Ivchenko, Nickolay, Sergienko, Tima, Strelnikov, Boris, Hedin, Jonas, Whiter, Daniel K., Brändström, Urban, Giono, Gabriel, Tolis, Christos, Yokoyama, Yoshihiro, Hosokawa, Keisuke and Ogawa, Yasunobu
(2025)
Ionospheric plasma parameters measured by SPIDER-2 sounding rocket during a pulsating aurora event.
Journal of Geophysical Research: Space Physics, 130 (2), [e2024JA032939].
(doi:10.1029/2024JA032939).
Abstract
The Small Payloads for Investigation of Disturbances in Electrojet by Rockets 2 (SPIDER-2) sounding rocket was launched from Esrange, Sweden, on the 19th of February 2020 at 23:14 UT. It traversed a pulsating aurora event, deploying eight free falling units which provided in situ multi-point measurements of the electric field, magnetic field and plasma parameters. In this article, the measured plasma parameters have been analyzed and compared with each other and with optical measurements obtained by ground based instrumentation. Peaks in electron density, thermal ion flux and optical emission have been found in the E region. Electron density profiles have been derived from the data collected by the Langmuir probes in two free falling units, the electron probes in the main rocket and the wave propagation experiment. A generally good agreement has been found among the different measurements in the up-leg of the trajectory, while the effect of the rocket wake was evident in the down-leg. The observed electron density profile has been found to agree with an incoming flux of high energetic electrons with energies around 20 keV. Auroral pulsations with a periodicity of 1–2 s have been recorded by an onboard photometer, a ground-based high speed camera, and the in situ thermal ion flux. The percentages of variation between the ON and OFF phases of the pulsations have been quantified for these quantities. The brightness measured by the photometer varies up to 68%, while the thermal ion flux measurements show only a 2.5% variation.
Text
JGR Space Physics - 2025 - Pérez‐Coll Jiménez - Ionospheric Plasma Parameters Measured by SPIDER‐2 Sounding Rocket During a
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Accepted/In Press date: 30 January 2025
e-pub ahead of print date: 10 February 2025
Published date: 10 February 2025
Keywords:
Langmuir probes, ionosphere, pulsating aurora, sounding rocket
Identifiers
Local EPrints ID: 503275
URI: http://eprints.soton.ac.uk/id/eprint/503275
ISSN: 2169-9402
PURE UUID: 4101b6cc-7b55-4b29-b7cf-046edf3b4b74
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Date deposited: 28 Jul 2025 16:33
Last modified: 22 Aug 2025 01:59
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Contributors
Author:
Judit Pérez-Coll Jiménez
Author:
Nickolay Ivchenko
Author:
Tima Sergienko
Author:
Boris Strelnikov
Author:
Jonas Hedin
Author:
Urban Brändström
Author:
Gabriel Giono
Author:
Christos Tolis
Author:
Yoshihiro Yokoyama
Author:
Keisuke Hosokawa
Author:
Yasunobu Ogawa
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