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Particle propagation channel detected at 4.7 AU inside a corotating interaction region

This study presents an interplanetary particle (electrons and ions) event which was detected at 4.7 AU by the instruments on the Ulysses spacecraft inside a corotating interaction region between a fast and slow solar wind stream. A particle propagation channel is identified where the particles can p...

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Published in:	Journal of Geophysical Research 1998-05, Vol.103 (A5), p.9545-9551
Main Authors:	Maia, D., Malandraki, O., Pick, M., Sarris, E. T., Kasotakis, G., Lanzerotti, L. J., MacLennan, C. G., Trochoutsos, P. C.
Format:	Article
Language:	English
Subjects:	Astronomy Earth, ocean, space Exact sciences and technology Interplanetary space Solar system Solar wind plasma
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cited_by	cdi_FETCH-LOGICAL-c3664-3ead88047e8b6b09aee881b6d3a4fb75c59b8c4778d0ae500a6821eeee5b40893
cites	cdi_FETCH-LOGICAL-c3664-3ead88047e8b6b09aee881b6d3a4fb75c59b8c4778d0ae500a6821eeee5b40893
container_end_page	9551
container_issue	A5
container_start_page	9545
container_title	Journal of Geophysical Research
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creator	Maia, D. Malandraki, O. Pick, M. Sarris, E. T. Kasotakis, G. Lanzerotti, L. J. MacLennan, C. G. Trochoutsos, P. C.
description	This study presents an interplanetary particle (electrons and ions) event which was detected at 4.7 AU by the instruments on the Ulysses spacecraft inside a corotating interaction region between a fast and slow solar wind stream. A particle propagation channel is identified where the particles can propagate from the Sun nearly scatter free within a region bounded by tangential discontinuities. This channel is found to be rooted in the vicinity of a solar active region where the flare associated with the interplanetary event was produced. The ions (energy over 600 keV) detected inside this channel are shown to be of solar origin: dispersion occurs in the proton arrival time versus proton energy, there is a strong anisotropy in the proton pitch angle distribution, and a hard energy‐spectrum for the protons. The electrons were already present when the spacecraft crossed the structure. The chemical composition is also indicative of a solar origin, with a decrease in the 4He/H (4He in the energy range 389–1278 keV and H in the range 480–1204 keV) abundance ratio by a factor of 2 inside the channel. Mapped back to the solar surface, the size of the propagation channel is estimated to be of the order of 30,000 km. The channel is found to be magnetically quiet, without a preferred direction for the minimum of variance.
doi_str_mv	10.1029/97JA02964
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The ions (energy over 600 keV) detected inside this channel are shown to be of solar origin: dispersion occurs in the proton arrival time versus proton energy, there is a strong anisotropy in the proton pitch angle distribution, and a hard energy‐spectrum for the protons. The electrons were already present when the spacecraft crossed the structure. The chemical composition is also indicative of a solar origin, with a decrease in the 4He/H (4He in the energy range 389–1278 keV and H in the range 480–1204 keV) abundance ratio by a factor of 2 inside the channel. Mapped back to the solar surface, the size of the propagation channel is estimated to be of the order of 30,000 km. 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The ions (energy over 600 keV) detected inside this channel are shown to be of solar origin: dispersion occurs in the proton arrival time versus proton energy, there is a strong anisotropy in the proton pitch angle distribution, and a hard energy‐spectrum for the protons. The electrons were already present when the spacecraft crossed the structure. The chemical composition is also indicative of a solar origin, with a decrease in the 4He/H (4He in the energy range 389–1278 keV and H in the range 480–1204 keV) abundance ratio by a factor of 2 inside the channel. Mapped back to the solar surface, the size of the propagation channel is estimated to be of the order of 30,000 km. 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The ions (energy over 600 keV) detected inside this channel are shown to be of solar origin: dispersion occurs in the proton arrival time versus proton energy, there is a strong anisotropy in the proton pitch angle distribution, and a hard energy‐spectrum for the protons. The electrons were already present when the spacecraft crossed the structure. The chemical composition is also indicative of a solar origin, with a decrease in the 4He/H (4He in the energy range 389–1278 keV and H in the range 480–1204 keV) abundance ratio by a factor of 2 inside the channel. Mapped back to the solar surface, the size of the propagation channel is estimated to be of the order of 30,000 km. The channel is found to be magnetically quiet, without a preferred direction for the minimum of variance.</abstract><cop>Washington, DC</cop><pub>Blackwell Publishing Ltd</pub><doi>10.1029/97JA02964</doi><tpages>7</tpages></addata></record>
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subjects	Astronomy Earth, ocean, space Exact sciences and technology Interplanetary space Solar system Solar wind plasma
title	Particle propagation channel detected at 4.7 AU inside a corotating interaction region
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