A porcupine Sun? Implications for the solar wind and Earth

Sarah E. Gibson; Liang Zhao

doi:10.1017/S1743921312004851

A porcupine Sun? Implications for the solar wind and Earth

Sarah E. Gibson, Liang Zhao

HAO Administrative Office

National Center for Atmospheric Research

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

3 Scopus citations

Abstract

The recent minimum was unusually long, and it was not just the case of the "usual story" slowed down. The coronal magnetic field never became completely dipolar as in recent Space Age minima, but rather gradually evolved into an (essentially axisymmetric) global configuration possessing mixed open and closed magnetic structures at many latitudes. In the process, the impact of the solar wind at the Earth went from resembling that from a sequence of rotating "fire-hoses" to what might be expected from a weak, omnidirectional "lawn-sprinkler". The previous (1996) solar minimum was a more classic dipolar configuration, and was characterized by slow wind of hot origin localized to the heliospheric current sheet, and fast wind of cold origin emitted from polar holes, but filling most of the heliosphere. In contrast, the more recent minimum solar wind possessed a broad range of speeds and source temperatures (although cooler overall than the prior minimum). We discuss possible connections between these observations and the near-radial expansion and small spatial scales characteristic of the recent minimum's porcupine-like magnetic field.

Original language	English
Title of host publication	Comparative Magnetic Minima
Subtitle of host publication	Characterizing quiet times in the Sun and Stars
Publisher	Cambridge University Press
Pages	210-214
Number of pages	5
Edition	S286
ISBN (Print)	9781107019867
DOIs	https://doi.org/10.1017/S1743921312004851
State	Published - Oct 2011

Publication series

Name	Proceedings of the International Astronomical Union
Number	S286
Volume	7
ISSN (Print)	1743-9213
ISSN (Electronic)	1743-9221

Keywords

Sun: corona
Sun: magnetic fields
Sun: solar wind
Sun: solar-terrestrial relations

Access to Document

10.1017/S1743921312004851

Cite this

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title = "A porcupine Sun? Implications for the solar wind and Earth",

abstract = "The recent minimum was unusually long, and it was not just the case of the {"}usual story{"} slowed down. The coronal magnetic field never became completely dipolar as in recent Space Age minima, but rather gradually evolved into an (essentially axisymmetric) global configuration possessing mixed open and closed magnetic structures at many latitudes. In the process, the impact of the solar wind at the Earth went from resembling that from a sequence of rotating {"}fire-hoses{"} to what might be expected from a weak, omnidirectional {"}lawn-sprinkler{"}. The previous (1996) solar minimum was a more classic dipolar configuration, and was characterized by slow wind of hot origin localized to the heliospheric current sheet, and fast wind of cold origin emitted from polar holes, but filling most of the heliosphere. In contrast, the more recent minimum solar wind possessed a broad range of speeds and source temperatures (although cooler overall than the prior minimum). We discuss possible connections between these observations and the near-radial expansion and small spatial scales characteristic of the recent minimum's porcupine-like magnetic field.",

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language = "English",

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A porcupine Sun? Implications for the solar wind and Earth. / Gibson, Sarah E.; Zhao, Liang.
Comparative Magnetic Minima: Characterizing quiet times in the Sun and Stars. S286. ed. Cambridge University Press, 2011. p. 210-214 (Proceedings of the International Astronomical Union; Vol. 7, No. S286).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

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AU - Gibson, Sarah E.

AU - Zhao, Liang

PY - 2011/10

Y1 - 2011/10

N2 - The recent minimum was unusually long, and it was not just the case of the "usual story" slowed down. The coronal magnetic field never became completely dipolar as in recent Space Age minima, but rather gradually evolved into an (essentially axisymmetric) global configuration possessing mixed open and closed magnetic structures at many latitudes. In the process, the impact of the solar wind at the Earth went from resembling that from a sequence of rotating "fire-hoses" to what might be expected from a weak, omnidirectional "lawn-sprinkler". The previous (1996) solar minimum was a more classic dipolar configuration, and was characterized by slow wind of hot origin localized to the heliospheric current sheet, and fast wind of cold origin emitted from polar holes, but filling most of the heliosphere. In contrast, the more recent minimum solar wind possessed a broad range of speeds and source temperatures (although cooler overall than the prior minimum). We discuss possible connections between these observations and the near-radial expansion and small spatial scales characteristic of the recent minimum's porcupine-like magnetic field.

AB - The recent minimum was unusually long, and it was not just the case of the "usual story" slowed down. The coronal magnetic field never became completely dipolar as in recent Space Age minima, but rather gradually evolved into an (essentially axisymmetric) global configuration possessing mixed open and closed magnetic structures at many latitudes. In the process, the impact of the solar wind at the Earth went from resembling that from a sequence of rotating "fire-hoses" to what might be expected from a weak, omnidirectional "lawn-sprinkler". The previous (1996) solar minimum was a more classic dipolar configuration, and was characterized by slow wind of hot origin localized to the heliospheric current sheet, and fast wind of cold origin emitted from polar holes, but filling most of the heliosphere. In contrast, the more recent minimum solar wind possessed a broad range of speeds and source temperatures (although cooler overall than the prior minimum). We discuss possible connections between these observations and the near-radial expansion and small spatial scales characteristic of the recent minimum's porcupine-like magnetic field.

KW - Sun: corona

KW - Sun: magnetic fields

KW - Sun: solar wind

KW - Sun: solar-terrestrial relations

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M3 - Conference contribution

AN - SCOPUS:84864361744

SN - 9781107019867

T3 - Proceedings of the International Astronomical Union

SP - 210

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BT - Comparative Magnetic Minima

PB - Cambridge University Press

ER -

A porcupine Sun? Implications for the solar wind and Earth

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