2015
DOI: 10.1002/2014ja020412
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A new four‐plasma categorization scheme for the solar wind

Abstract: A three-parameter algebraic scheme is developed to categorize the solar wind at 1 AU into four plasma types: coronal-hole-origin plasma, streamer-belt-origin plasma, sector-reversal-region plasma, and ejecta. The three parameters are the proton-specific entropy S p = T p /n p 2/3 , the proton Alfvén speed v A , and the proton temperature T p compared with a velocity-dependent expected temperature. Four measurements are needed to apply the scheme: the proton number density n p , the proton temperature T p , the… Show more

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Cited by 116 publications
(281 citation statements)
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References 156 publications
(260 reference statements)
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“…The second panel shows that the electron radiation belt density recoveries tend to occur after the dawnward‐duskward reversal through zero of the solar wind flow direction, i.e., after the CIR stream interface passes, in what is compressed coronal hole origin solar wind plasma. This is corroborated by the red S p curve in Figure (fourth panel) showing that the electron number density recoveries occur in high‐entropy coronal hole plasma [ Xu and Borovsky , ]. The green curve in Figure (fourth panel) shows that the electron recoveries tend to occur after the peak compression (maximum of B mag ) of the CIR, which occurs near the stream interface.…”
Section: Discussionmentioning
confidence: 56%
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“…The second panel shows that the electron radiation belt density recoveries tend to occur after the dawnward‐duskward reversal through zero of the solar wind flow direction, i.e., after the CIR stream interface passes, in what is compressed coronal hole origin solar wind plasma. This is corroborated by the red S p curve in Figure (fourth panel) showing that the electron number density recoveries occur in high‐entropy coronal hole plasma [ Xu and Borovsky , ]. The green curve in Figure (fourth panel) shows that the electron recoveries tend to occur after the peak compression (maximum of B mag ) of the CIR, which occurs near the stream interface.…”
Section: Discussionmentioning
confidence: 56%
“…This is also confirmed by the red and green curves in Figure (fourth panel); the red S p curve shows the dropouts occurring in low‐entropy (streamer belt or sector‐reversal‐region) solar wind [cf. Xu and Borovsky , ], and the green B mag curve shows that the dropouts occur before the peak of the compression of the CIR. The blue n sw curve in Figure (fourth panel) indicates that the temporal occurrence of the electron radiation belt density dropout is associated with a peak of the solar wind number density, which also corresponds to a peak in the solar wind ram pressure.…”
Section: Discussionmentioning
confidence: 99%
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“…To characterize observed solar-wind packages by type, we use the categorisation scheme from Xu & Borovsky (2015). This scheme defines four categories of solar wind: coronal hole wind plasma, ejecta plasma, and two slow solar wind categories, namely sector-reversal region plasma and streamer-belt plasma.…”
Section: Data Selection Solar Wind Characterisation and Methodsmentioning
confidence: 99%
“…et al, 2012], [Feldman U. et al, 2005]). In [Xu F. & Borovsky J.E., 2015], a classification was proposed with dividing of the solar wind plasma into 4 categories, based on coronal sources: coronalhole-origin plasma, streamer-belt-origin plasma, sector-reversal-region plasma and transient events (such as CMEs). The division was made on the basis of quantitative criteria for three parameters: entropy of protons, their Alfvén velocity, and their temperature relative to the expected from the wind speed.…”
mentioning
confidence: 99%