Numerical simulation for a vortex street near the poleward boundary of the nighttime auroral oval

Yamamoto, T.

doi:10.1029/2011ja017011

J. Geophys. Res.

2012

DOI: 10.1029/2011ja017011

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Numerical simulation for a vortex street near the poleward boundary of the nighttime auroral oval

T. Yamamoto¹

Abstract: .[1] The formation of a vortex street is numerically studied as an aftermath of a transient (≈1 min) depression of the energy density of injected particles. It is basically assumed that the kinetic energies of auroral particles are substantially provided by nonadiabatic acceleration in the tail current sheet. One of the causes of such energy density depression is an outward (away from the Earth) movement of the neutral line because in such situation, a particle passes the acceleration zone for a shorter time i… Show more

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2024

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Cited by 2 publications

References 33 publications

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Scenario for the Formation of Vortexlike Structures in a Presubstorm Arc, Taking into Account Changes in the Arc Height during Its Evolution

Safargaleev,

Sergienko,

Kotikov

et al. 2024

Geomagn. Aeron.

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Scenario for the Formation of Vortexlike Structures in a Presubstorm Arc, Taking into Account Changes in the Arc Height during Its Evolution

Safargaleev,

Sergienko,

Kotikov

et al. 2024

Geomagn. Aeron.

View full text Add to dashboard Cite

Scenario for the formation of vortexlike structures in a presubstorm arc, taking into account changes in the arc height during its evolution

Safargaleev,

Sergienko,

Kotikov

et al. 2024

Geomagnetizm i aèronomiâ

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Activity in a prebreakup auroral arc in the form of vortexlike structures, the appearance/disappearance of which is preceded by an increase/decrease in the brightness of the arc, was studied in the context of a magnetospheric substorm, large-scale ionospheric convection, the situation in the interplanetary medium, and triangulation measurements of the arc height. The structures are observed in the premidnight hours and represent a superposition of two auroral forms: a large-scale bend in the arc that outlines the polar boundary of the diffuse auroras and smaller luminous tongues of luminosity (mini-torches) elongated along the convection on the western slope of the bends. The structures as a whole move against convection, towards substorm activity to the east of the observation area. We attribute the appearance of structures to the propagation of a disturbance deep into the magnetosphere, generated as a result of interaction of the magnetopause with a solar wind inhomogeneity, on the front of which Bz turns southward. The results of triangulation measurements show that the increase in brightness in the prebreakup arc shortly before the appearance of vortexlike structures is accompanied by a decrease in the height of the lower edge of the arc, which we explain by the appearance of a parallel electric field above the arc, which accelerates the precipitating electrons. The role of such a field in the formation of the torchlike structures is discussed in the framework of the interchange instability of the pole boundary of diffuse auroras.

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Numerical simulation for a vortex street near the poleward boundary of the nighttime auroral oval

Cited by 2 publications

References 33 publications

Scenario for the Formation of Vortexlike Structures in a Presubstorm Arc, Taking into Account Changes in the Arc Height during Its Evolution

Scenario for the Formation of Vortexlike Structures in a Presubstorm Arc, Taking into Account Changes in the Arc Height during Its Evolution

Scenario for the formation of vortexlike structures in a presubstorm arc, taking into account changes in the arc height during its evolution

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