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@article{Good:2019:10.1029/2019ja026475,
author = {Good, SW and Kilpua, EKJ and LaMoury, AT and Forsyth, RJ and Eastwood, JP and Möstl, C},
doi = {10.1029/2019ja026475},
journal = {Journal of Geophysical Research: Space Physics},
pages = {4960--4982},
title = {Selfsimilarity of ICME flux ropes: Observations by radially aligned spacecraft in the inner Heliosphere},
url = {http://dx.doi.org/10.1029/2019ja026475},
volume = {124},
year = {2019}
}

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TY  - JOUR
AB  - Interplanetary coronal mass ejections (ICMEs) are a significant feature of the heliospheric environment and the primary cause of adverse space weather at the Earth. ICME propagation and the evolution of ICME magnetic field structure during propagation are still not fully understood. We analyze the magnetic field structures of 18 ICME magnetic flux ropes observed by radially aligned spacecraft in the inner heliosphere. Similarity in the underlying flux rope structures is determined through the application of a simple technique that maps the magnetic field profile from one spacecraft to the other. In many cases, the flux ropes show very strong underlying similarities at the different spacecraft. The mapping technique reveals similarities that are not readily apparent in the unmapped data and is a useful tool when determining whether magnetic field time series observed at different spacecraft are associated with the same ICME. Lundquist fitting has been applied to the flux ropes, and the rope orientations have been determined; macroscale differences in the profiles at the aligned spacecraft may be ascribed to differences in flux rope orientation. Assuming that the same region of the ICME was observed by the aligned spacecraft in each case, the fitting indicates some weak tendency for the rope axes to reduce in inclination relative to the solar equatorial plane and to align with the solar eastwest direction with heliocentric distance.Plain Language SummaryCoronal mass ejections (CMEs) are large eruptions of magnetic field and plasma from the Sun. When they arrive at the Earth, these eruptions can cause significant damage to ground and orbital infrastructure; forecasting this “space weather” impact of CMEs at the Earth remains a difficult task. The impact of individual CMEs is largely dependent on their magnetic field configurations, and an important aspect of space weather forecasting is understanding how CME field configuration changes with distance from t
AU  - Good,SW
AU  - Kilpua,EKJ
AU  - LaMoury,AT
AU  - Forsyth,RJ
AU  - Eastwood,JP
AU  - Möstl,C
DO  - 10.1029/2019ja026475
EP  - 4982
PY  - 2019///
SN  - 2169-9380
SP  - 4960
TI  - Selfsimilarity of ICME flux ropes: Observations by radially aligned spacecraft in the inner Heliosphere
T2  - Journal of Geophysical Research: Space Physics
UR  - http://dx.doi.org/10.1029/2019ja026475
UR  - https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2019JA026475
UR  - http://hdl.handle.net/10044/1/72605
VL  - 124
ER  -

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