Typical Profiles and Distributions of Plasma and Magnetic Field Parameters in Magnetic Clouds at 1 AU

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Magnetic clouds (MCs) are a subset of interplanetary coronal mass ejections (ICMEs). They are important because of their simple internal magnetic field configuration, which resembles a magnetic flux rope, and because they represent one of the most geoeffective types of solar transients. In this stud...

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Autores principales: Rodriguez, L., Masías-Meza, J.J., Dasso, S., Démoulin, P., Zhukov, A.N., Gulisano, A.M., Mierla, M., Kilpua, E., West, M., Lacatus, D., Paraschiv, A., Janvier, M.
Formato: JOUR
Materias:
Coronal mass ejections, low coronal signatures, initiation and propagation
Interplanetary coronal mass ejections
Magnetic clouds
Space weather
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00380938_v291_n7_p2145_Rodriguez
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_00380938_v291_n7_p2145_Rodriguez
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spelling todo:paper_00380938_v291_n7_p2145_Rodriguez2023-10-03T14:48:56Z Typical Profiles and Distributions of Plasma and Magnetic Field Parameters in Magnetic Clouds at 1 AU Rodriguez, L. Masías-Meza, J.J. Dasso, S. Démoulin, P. Zhukov, A.N. Gulisano, A.M. Mierla, M. Kilpua, E. West, M. Lacatus, D. Paraschiv, A. Janvier, M. Coronal mass ejections, low coronal signatures, initiation and propagation Interplanetary coronal mass ejections Magnetic clouds Space weather Magnetic clouds (MCs) are a subset of interplanetary coronal mass ejections (ICMEs). They are important because of their simple internal magnetic field configuration, which resembles a magnetic flux rope, and because they represent one of the most geoeffective types of solar transients. In this study, we analyze their internal structure using a superposed epoch method on 63 events observed at L1 by the Advance Composition Explorer (ACE), between 1998 and 2006. In this way, we obtain an average profile for each plasma and magnetic field parameter at each point of the cloud. Furthermore, we take a fixed time-window upstream and downstream from the MC to also sample the regions preceding the cloud and the wake trailing it. We then perform a detailed analysis of the internal characteristics of the clouds and their surrounding solar wind environments. We find that the parameters studied are compatible with log-normal distribution functions. The plasma β and the level of fluctuations in the magnetic field vector are the best parameters to define the boundaries of MCs. We find that one third of the events shows a peak in plasma density close to the trailing edge of the flux ropes. We provide several possible explanations for this result and investigate if the density peak is of a solar origin (e.g. erupting prominence material) or formed during the magnetic cloud travel from the Sun to 1 AU. The most plausible explanation is the compression due to a fast overtaking flow, coming from a coronal hole located to the east of the solar source region of the magnetic cloud. © 2016, Springer Science+Business Media Dordrecht. Fil:Dasso, S. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Gulisano, A.M. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00380938_v291_n7_p2145_Rodriguez
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Coronal mass ejections, low coronal signatures, initiation and propagation
Interplanetary coronal mass ejections
Magnetic clouds
Space weather
spellingShingle Coronal mass ejections, low coronal signatures, initiation and propagation
Interplanetary coronal mass ejections
Magnetic clouds
Space weather
Rodriguez, L.
Masías-Meza, J.J.
Dasso, S.
Démoulin, P.
Zhukov, A.N.
Gulisano, A.M.
Mierla, M.
Kilpua, E.
West, M.
Lacatus, D.
Paraschiv, A.
Janvier, M.
Typical Profiles and Distributions of Plasma and Magnetic Field Parameters in Magnetic Clouds at 1 AU
topic_facet Coronal mass ejections, low coronal signatures, initiation and propagation
Interplanetary coronal mass ejections
Magnetic clouds
Space weather
description Magnetic clouds (MCs) are a subset of interplanetary coronal mass ejections (ICMEs). They are important because of their simple internal magnetic field configuration, which resembles a magnetic flux rope, and because they represent one of the most geoeffective types of solar transients. In this study, we analyze their internal structure using a superposed epoch method on 63 events observed at L1 by the Advance Composition Explorer (ACE), between 1998 and 2006. In this way, we obtain an average profile for each plasma and magnetic field parameter at each point of the cloud. Furthermore, we take a fixed time-window upstream and downstream from the MC to also sample the regions preceding the cloud and the wake trailing it. We then perform a detailed analysis of the internal characteristics of the clouds and their surrounding solar wind environments. We find that the parameters studied are compatible with log-normal distribution functions. The plasma β and the level of fluctuations in the magnetic field vector are the best parameters to define the boundaries of MCs. We find that one third of the events shows a peak in plasma density close to the trailing edge of the flux ropes. We provide several possible explanations for this result and investigate if the density peak is of a solar origin (e.g. erupting prominence material) or formed during the magnetic cloud travel from the Sun to 1 AU. The most plausible explanation is the compression due to a fast overtaking flow, coming from a coronal hole located to the east of the solar source region of the magnetic cloud. © 2016, Springer Science+Business Media Dordrecht.
format JOUR
author Rodriguez, L.
Masías-Meza, J.J.
Dasso, S.
Démoulin, P.
Zhukov, A.N.
Gulisano, A.M.
Mierla, M.
Kilpua, E.
West, M.
Lacatus, D.
Paraschiv, A.
Janvier, M.
author_facet Rodriguez, L.
Masías-Meza, J.J.
Dasso, S.
Démoulin, P.
Zhukov, A.N.
Gulisano, A.M.
Mierla, M.
Kilpua, E.
West, M.
Lacatus, D.
Paraschiv, A.
Janvier, M.
author_sort Rodriguez, L.
title Typical Profiles and Distributions of Plasma and Magnetic Field Parameters in Magnetic Clouds at 1 AU
title_short Typical Profiles and Distributions of Plasma and Magnetic Field Parameters in Magnetic Clouds at 1 AU
title_full Typical Profiles and Distributions of Plasma and Magnetic Field Parameters in Magnetic Clouds at 1 AU
title_fullStr Typical Profiles and Distributions of Plasma and Magnetic Field Parameters in Magnetic Clouds at 1 AU
title_full_unstemmed Typical Profiles and Distributions of Plasma and Magnetic Field Parameters in Magnetic Clouds at 1 AU
title_sort typical profiles and distributions of plasma and magnetic field parameters in magnetic clouds at 1 au
url http://hdl.handle.net/20.500.12110/paper_00380938_v291_n7_p2145_Rodriguez
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