Forward modelling to determine the observational signatures of white-light imaging and interplanetary scintillation for the propagation of an interplanetary shock in the ecliptic plane

Recent coordinated observations of interplanetary scintillation (IPS) from the EISCAT, MERLIN, and STELab, and stereoscopic white-light imaging from the two heliospheric imagers (His) onboard the twin STEREO spacecraft are significant to continuously track the propagation and evolution of solar erup...

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Published in:Journal of Atmospheric and Solar-Terrestrial Physics
Main Authors: Xiong, Ming, Breen, A. R., Bisi, M. M., Owens, M. J., Fallows, R. A., Dorrian, G. D., Davies, J. A., Thomasson, P.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2011
Subjects:
EISCAT
Online Access:https://eprints.lancs.ac.uk/id/eprint/63297/
https://doi.org/10.1016/j.jastp.2010.09.007
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spelling ftulancaster:oai:eprints.lancs.ac.uk:63297 2023-08-27T04:09:14+02:00 Forward modelling to determine the observational signatures of white-light imaging and interplanetary scintillation for the propagation of an interplanetary shock in the ecliptic plane Xiong, Ming Breen, A. R. Bisi, M. M. Owens, M. J. Fallows, R. A. Dorrian, G. D. Davies, J. A. Thomasson, P. 2011-06-20 https://eprints.lancs.ac.uk/id/eprint/63297/ https://doi.org/10.1016/j.jastp.2010.09.007 unknown Xiong, Ming and Breen, A. R. and Bisi, M. M. and Owens, M. J. and Fallows, R. A. and Dorrian, G. D. and Davies, J. A. and Thomasson, P. (2011) Forward modelling to determine the observational signatures of white-light imaging and interplanetary scintillation for the propagation of an interplanetary shock in the ecliptic plane. Journal of Atmospheric and Solar-Terrestrial Physics, 73 (10). pp. 1270-1280. ISSN 1364-6826 Journal Article PeerReviewed 2011 ftulancaster https://doi.org/10.1016/j.jastp.2010.09.007 2023-08-03T22:24:24Z Recent coordinated observations of interplanetary scintillation (IPS) from the EISCAT, MERLIN, and STELab, and stereoscopic white-light imaging from the two heliospheric imagers (His) onboard the twin STEREO spacecraft are significant to continuously track the propagation and evolution of solar eruptions throughout interplanetary space. In order to obtain a better understanding of the observational signatures in these two remote-sensing techniques, the magnetohydrodynamics of the macro-scale interplanetary disturbance and the radio-wave scattering of the micro-scale electron-density fluctuation are coupled and investigated using a newly constructed multi-scale numerical model. This model is then applied to a case of an interplanetary shock propagation within the ecliptic plane. The shock could be nearly invisible to an HI, once entering the Thomson-scattering sphere of the HI. The asymmetry in the optical images between the western and eastern His suggests the shock propagation off the Sun-Earth line. Meanwhile, an IPS signal, strongly dependent on the local electron density, is insensitive to the density cavity far downstream of the shock front. When this cavity (or the shock nose) is cut through by an IPS ray-path, a single speed component at the flank (or the nose) of the shock can be recorded: when an IPS ray-path penetrates the sheath between the shock nose and this cavity, two speed components at the sheath and flank can be detected. Moreover, once a shock front touches an IPS ray-path, the derived position and speed at the irregularity source of this IPS signal, together with an assumption of a radial and constant propagation of the shock, can be used to estimate the later appearance of the shock front in the elongation of the HI field of view. The results of synthetic measurements from forward modelling are helpful in inferring the in-situ properties of coronal mass ejection from real observational data via an inverse approach. (C) 2010 Elsevier Ltd. All rights reserved. Article in Journal/Newspaper EISCAT Lancaster University: Lancaster Eprints Journal of Atmospheric and Solar-Terrestrial Physics 73 10 1270 1280
institution Open Polar
collection Lancaster University: Lancaster Eprints
op_collection_id ftulancaster
language unknown
description Recent coordinated observations of interplanetary scintillation (IPS) from the EISCAT, MERLIN, and STELab, and stereoscopic white-light imaging from the two heliospheric imagers (His) onboard the twin STEREO spacecraft are significant to continuously track the propagation and evolution of solar eruptions throughout interplanetary space. In order to obtain a better understanding of the observational signatures in these two remote-sensing techniques, the magnetohydrodynamics of the macro-scale interplanetary disturbance and the radio-wave scattering of the micro-scale electron-density fluctuation are coupled and investigated using a newly constructed multi-scale numerical model. This model is then applied to a case of an interplanetary shock propagation within the ecliptic plane. The shock could be nearly invisible to an HI, once entering the Thomson-scattering sphere of the HI. The asymmetry in the optical images between the western and eastern His suggests the shock propagation off the Sun-Earth line. Meanwhile, an IPS signal, strongly dependent on the local electron density, is insensitive to the density cavity far downstream of the shock front. When this cavity (or the shock nose) is cut through by an IPS ray-path, a single speed component at the flank (or the nose) of the shock can be recorded: when an IPS ray-path penetrates the sheath between the shock nose and this cavity, two speed components at the sheath and flank can be detected. Moreover, once a shock front touches an IPS ray-path, the derived position and speed at the irregularity source of this IPS signal, together with an assumption of a radial and constant propagation of the shock, can be used to estimate the later appearance of the shock front in the elongation of the HI field of view. The results of synthetic measurements from forward modelling are helpful in inferring the in-situ properties of coronal mass ejection from real observational data via an inverse approach. (C) 2010 Elsevier Ltd. All rights reserved.
format Article in Journal/Newspaper
author Xiong, Ming
Breen, A. R.
Bisi, M. M.
Owens, M. J.
Fallows, R. A.
Dorrian, G. D.
Davies, J. A.
Thomasson, P.
spellingShingle Xiong, Ming
Breen, A. R.
Bisi, M. M.
Owens, M. J.
Fallows, R. A.
Dorrian, G. D.
Davies, J. A.
Thomasson, P.
Forward modelling to determine the observational signatures of white-light imaging and interplanetary scintillation for the propagation of an interplanetary shock in the ecliptic plane
author_facet Xiong, Ming
Breen, A. R.
Bisi, M. M.
Owens, M. J.
Fallows, R. A.
Dorrian, G. D.
Davies, J. A.
Thomasson, P.
author_sort Xiong, Ming
title Forward modelling to determine the observational signatures of white-light imaging and interplanetary scintillation for the propagation of an interplanetary shock in the ecliptic plane
title_short Forward modelling to determine the observational signatures of white-light imaging and interplanetary scintillation for the propagation of an interplanetary shock in the ecliptic plane
title_full Forward modelling to determine the observational signatures of white-light imaging and interplanetary scintillation for the propagation of an interplanetary shock in the ecliptic plane
title_fullStr Forward modelling to determine the observational signatures of white-light imaging and interplanetary scintillation for the propagation of an interplanetary shock in the ecliptic plane
title_full_unstemmed Forward modelling to determine the observational signatures of white-light imaging and interplanetary scintillation for the propagation of an interplanetary shock in the ecliptic plane
title_sort forward modelling to determine the observational signatures of white-light imaging and interplanetary scintillation for the propagation of an interplanetary shock in the ecliptic plane
publishDate 2011
url https://eprints.lancs.ac.uk/id/eprint/63297/
https://doi.org/10.1016/j.jastp.2010.09.007
genre EISCAT
genre_facet EISCAT
op_relation Xiong, Ming and Breen, A. R. and Bisi, M. M. and Owens, M. J. and Fallows, R. A. and Dorrian, G. D. and Davies, J. A. and Thomasson, P. (2011) Forward modelling to determine the observational signatures of white-light imaging and interplanetary scintillation for the propagation of an interplanetary shock in the ecliptic plane. Journal of Atmospheric and Solar-Terrestrial Physics, 73 (10). pp. 1270-1280. ISSN 1364-6826
op_doi https://doi.org/10.1016/j.jastp.2010.09.007
container_title Journal of Atmospheric and Solar-Terrestrial Physics
container_volume 73
container_issue 10
container_start_page 1270
op_container_end_page 1280
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