Magnetosphere sawtooth oscillations induced by ionospheric outflow

O. J. Brambles; W. Lotko; B. Zhang; M. Wiltberger; J. Lyon; R. J. Strangeway

doi:10.1126/science.1202869

Magnetosphere sawtooth oscillations induced by ionospheric outflow

O. J. Brambles, W. Lotko, B. Zhang, M. Wiltberger, J. Lyon, R. J. Strangeway

HAO Administrative Office

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110 Scopus citations

Abstract

The sawtooth mode of convection of Earth's magnetosphere is a 2- to 4-hour planetary-scale oscillation powered by the solar wind-magnetosphere-ionosphere (SW-M-I) interaction. Using global simulations of geospace, we have shown that ionospheric O⁺ outflows can generate sawtooth oscillations. As the outflowing ions fill the inner magnetosphere, their pressure distends the nightside magnetic field. When the outflow fluence exceeds a threshold, magnetic field tension cannot confine the accumulating fluid; an O⁺-rich plasmoid is ejected, and the field dipolarizes. Below the threshold, the magnetosphere undergoes quasi-steady convection. Repetition and the sawtooth period are controlled by the strength of the SW-M-I interaction, which regulates the outflow fluence.

Original language	English
Pages (from-to)	1183-1186
Number of pages	4
Journal	Science
Volume	332
Issue number	6034
DOIs	https://doi.org/10.1126/science.1202869
State	Published - Jun 3 2011

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title = "Magnetosphere sawtooth oscillations induced by ionospheric outflow",

abstract = "The sawtooth mode of convection of Earth's magnetosphere is a 2- to 4-hour planetary-scale oscillation powered by the solar wind-magnetosphere-ionosphere (SW-M-I) interaction. Using global simulations of geospace, we have shown that ionospheric O+ outflows can generate sawtooth oscillations. As the outflowing ions fill the inner magnetosphere, their pressure distends the nightside magnetic field. When the outflow fluence exceeds a threshold, magnetic field tension cannot confine the accumulating fluid; an O+-rich plasmoid is ejected, and the field dipolarizes. Below the threshold, the magnetosphere undergoes quasi-steady convection. Repetition and the sawtooth period are controlled by the strength of the SW-M-I interaction, which regulates the outflow fluence.",

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T1 - Magnetosphere sawtooth oscillations induced by ionospheric outflow

AU - Brambles, O. J.

AU - Lotko, W.

AU - Zhang, B.

AU - Wiltberger, M.

AU - Lyon, J.

AU - Strangeway, R. J.

PY - 2011/6/3

Y1 - 2011/6/3

N2 - The sawtooth mode of convection of Earth's magnetosphere is a 2- to 4-hour planetary-scale oscillation powered by the solar wind-magnetosphere-ionosphere (SW-M-I) interaction. Using global simulations of geospace, we have shown that ionospheric O+ outflows can generate sawtooth oscillations. As the outflowing ions fill the inner magnetosphere, their pressure distends the nightside magnetic field. When the outflow fluence exceeds a threshold, magnetic field tension cannot confine the accumulating fluid; an O+-rich plasmoid is ejected, and the field dipolarizes. Below the threshold, the magnetosphere undergoes quasi-steady convection. Repetition and the sawtooth period are controlled by the strength of the SW-M-I interaction, which regulates the outflow fluence.

AB - The sawtooth mode of convection of Earth's magnetosphere is a 2- to 4-hour planetary-scale oscillation powered by the solar wind-magnetosphere-ionosphere (SW-M-I) interaction. Using global simulations of geospace, we have shown that ionospheric O+ outflows can generate sawtooth oscillations. As the outflowing ions fill the inner magnetosphere, their pressure distends the nightside magnetic field. When the outflow fluence exceeds a threshold, magnetic field tension cannot confine the accumulating fluid; an O+-rich plasmoid is ejected, and the field dipolarizes. Below the threshold, the magnetosphere undergoes quasi-steady convection. Repetition and the sawtooth period are controlled by the strength of the SW-M-I interaction, which regulates the outflow fluence.

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U2 - 10.1126/science.1202869

DO - 10.1126/science.1202869

M3 - Article

AN - SCOPUS:79957967054

SN - 0036-8075

VL - 332

SP - 1183

EP - 1186

JO - Science

JF - Science

IS - 6034

ER -

Magnetosphere sawtooth oscillations induced by ionospheric outflow

Abstract

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