The transterminator ion flow at Venus at solar minimum

A. G. Wood; S. E. Pryse; M. Grande; I. C. Whittaker; A. J. Coates; K. Husband; W. Baumjohann; T. L. Zhang; C. Mazelle; E. Kallio; M. Fränz; S. McKenna-Lawlor; P. Wurz

doi:10.1016/j.pss.2012.08.006

The transterminator ion flow at Venus at solar minimum

A. G. Wood^*
, S. E. Pryse
, M. Grande
, I. C. Whittaker
, A. J. Coates
, K. Husband
, W. Baumjohann
, T. L. Zhang
, C. Mazelle
, E. Kallio
, M. Fränz
, S. McKenna-Lawlor
, P. Wurz

^*Corresponding author for this work

Aberystwyth University
University of St Andrews
University College London
Austrian Academy of Sciences
Université de Toulouse
Finnish Meteorological Institute
Max Planck Institute for Solar System Research
National University of Ireland
University of Bern

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

1 Scopus citations

Abstract

The transterminator ion flow in the Venusian ionosphere is observed at solar minimum for the first time. Such a flow, which transports ions from the day to the nightside, has been observed previously around solar maximum. At solar minimum this transport process is severely inhibited by the lower altitude of the ionopause. The observations presented were those made of the Venusian ionospheric plasma by the ASPERA-4 experiment onboard the Venus Express spacecraft, and which constitute the first extensive in-situ measurements of the plasma near solar minimum. Observations near the terminator of the energies of ions of ionospheric origin showed asymmetry between the noon and midnight sectors, which indicated an antisunward ion flow with a velocity of (2.5±1.5) km s^-1. It is suggested that this ion flow contributes to maintaining the nightside ionosphere near the terminator region at solar minimum. The interpretation of the result was reinforced by observed asymmetries in the ion number counts. The observed dawn-dusk asymmetry was consistent with a nightward transport of ions while the noon-midnight observations indicated that the flow was highly variable but could contribute to the maintenance of the nightside ionosphere.

Original language	English
Pages (from-to)	341-346
Number of pages	6
Journal	Planetary and Space Science
Volume	73
Issue number	1
DOIs	https://doi.org/10.1016/j.pss.2012.08.006
State	Published - Dec 2012
Externally published	Yes

Keywords

Antisunward flow
Ion flow
Ion transport
Ionosphere
Venus

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10.1016/j.pss.2012.08.006

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@article{d010eb95f65c446c9e9f3dd535261b65,

title = "The transterminator ion flow at Venus at solar minimum",

abstract = "The transterminator ion flow in the Venusian ionosphere is observed at solar minimum for the first time. Such a flow, which transports ions from the day to the nightside, has been observed previously around solar maximum. At solar minimum this transport process is severely inhibited by the lower altitude of the ionopause. The observations presented were those made of the Venusian ionospheric plasma by the ASPERA-4 experiment onboard the Venus Express spacecraft, and which constitute the first extensive in-situ measurements of the plasma near solar minimum. Observations near the terminator of the energies of ions of ionospheric origin showed asymmetry between the noon and midnight sectors, which indicated an antisunward ion flow with a velocity of (2.5±1.5) km s-1. It is suggested that this ion flow contributes to maintaining the nightside ionosphere near the terminator region at solar minimum. The interpretation of the result was reinforced by observed asymmetries in the ion number counts. The observed dawn-dusk asymmetry was consistent with a nightward transport of ions while the noon-midnight observations indicated that the flow was highly variable but could contribute to the maintenance of the nightside ionosphere.",

keywords = "Antisunward flow, Ion flow, Ion transport, Ionosphere, Venus",

author = "Wood, \{A. G.\} and Pryse, \{S. E.\} and M. Grande and Whittaker, \{I. C.\} and Coates, \{A. J.\} and K. Husband and W. Baumjohann and Zhang, \{T. L.\} and C. Mazelle and E. Kallio and M. Fr{\"a}nz and S. McKenna-Lawlor and P. Wurz",

year = "2012",

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doi = "10.1016/j.pss.2012.08.006",

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TY - JOUR

T1 - The transterminator ion flow at Venus at solar minimum

AU - Wood, A. G.

AU - Pryse, S. E.

AU - Grande, M.

AU - Whittaker, I. C.

AU - Coates, A. J.

AU - Husband, K.

AU - Baumjohann, W.

AU - Zhang, T. L.

AU - Mazelle, C.

AU - Kallio, E.

AU - Fränz, M.

AU - McKenna-Lawlor, S.

AU - Wurz, P.

PY - 2012/12

Y1 - 2012/12

N2 - The transterminator ion flow in the Venusian ionosphere is observed at solar minimum for the first time. Such a flow, which transports ions from the day to the nightside, has been observed previously around solar maximum. At solar minimum this transport process is severely inhibited by the lower altitude of the ionopause. The observations presented were those made of the Venusian ionospheric plasma by the ASPERA-4 experiment onboard the Venus Express spacecraft, and which constitute the first extensive in-situ measurements of the plasma near solar minimum. Observations near the terminator of the energies of ions of ionospheric origin showed asymmetry between the noon and midnight sectors, which indicated an antisunward ion flow with a velocity of (2.5±1.5) km s-1. It is suggested that this ion flow contributes to maintaining the nightside ionosphere near the terminator region at solar minimum. The interpretation of the result was reinforced by observed asymmetries in the ion number counts. The observed dawn-dusk asymmetry was consistent with a nightward transport of ions while the noon-midnight observations indicated that the flow was highly variable but could contribute to the maintenance of the nightside ionosphere.

AB - The transterminator ion flow in the Venusian ionosphere is observed at solar minimum for the first time. Such a flow, which transports ions from the day to the nightside, has been observed previously around solar maximum. At solar minimum this transport process is severely inhibited by the lower altitude of the ionopause. The observations presented were those made of the Venusian ionospheric plasma by the ASPERA-4 experiment onboard the Venus Express spacecraft, and which constitute the first extensive in-situ measurements of the plasma near solar minimum. Observations near the terminator of the energies of ions of ionospheric origin showed asymmetry between the noon and midnight sectors, which indicated an antisunward ion flow with a velocity of (2.5±1.5) km s-1. It is suggested that this ion flow contributes to maintaining the nightside ionosphere near the terminator region at solar minimum. The interpretation of the result was reinforced by observed asymmetries in the ion number counts. The observed dawn-dusk asymmetry was consistent with a nightward transport of ions while the noon-midnight observations indicated that the flow was highly variable but could contribute to the maintenance of the nightside ionosphere.

KW - Antisunward flow

KW - Ion flow

KW - Ion transport

KW - Ionosphere

KW - Venus

UR - https://www.scopus.com/pages/publications/84870613010

U2 - 10.1016/j.pss.2012.08.006

DO - 10.1016/j.pss.2012.08.006

M3 - 文章

AN - SCOPUS:84870613010

SN - 0032-0633

VL - 73

SP - 341

EP - 346

JO - Planetary and Space Science

JF - Planetary and Space Science

IS - 1

ER -

The transterminator ion flow at Venus at solar minimum

Abstract

Keywords

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