3-D Mesoscale MHD Simulations of a Cusp-Like Magnetic Configuration: Method and First Results

E. Adamson; A. Otto; K. Nykyri

doi:10.5194/angeo-29-759-2011

3-D Mesoscale MHD Simulations of a Cusp-Like Magnetic Configuration: Method and First Results

E. Adamson, A. Otto, K. Nykyri

Physical Sciences

University of Alaska, Fairbanks

Research output: Contribution to journal › Article › peer-review

Abstract

We present a local mesoscale model of the magnetospheric cusp region with high resolution (up to 300 km). We discuss the construction and implementation of the initial configuration and give a detailed description of the numerical simulation. An overview of simulation results for the case of strongly northward interplanetary magnetic field (IMF) is then presented and compared with data from Cluster 2 spacecraft from 14 February 2003. Results show a cusp diamagnetic cavity (CDC) with depth normal to the magnetospheric boundary on the order of 1–2Re and a much larger extent of ~5–9Re tangential to the boundary, bounded by a gradual inner boundary with the magnetospheric lobe and a more distinct exterior boundary with the magnetosheath. These results are qualitatively consistent with observational data.

Original language	American English
Journal	Annales Geophysicae
Volume	29
DOIs	https://doi.org/10.5194/angeo-29-759-2011
State	Published - May 1 2011

Keywords

magnetospheric physics
solar-wind magnetosphere interactions
space plasma physics

Disciplines

Astrophysics and Astronomy

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10.5194/angeo-29-759-2011License: CC BY

3-D Mesoscale MHD Simulations of a Cusp-Like Magnetic ConfiguratiFinal published version, 1.88 MBLicense: CC BY

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title = "3-D Mesoscale MHD Simulations of a Cusp-Like Magnetic Configuration: Method and First Results",

abstract = " We present a local mesoscale model of the magnetospheric cusp region with high resolution (up to 300 km). We discuss the construction and implementation of the initial configuration and give a detailed description of the numerical simulation. An overview of simulation results for the case of strongly northward interplanetary magnetic field (IMF) is then presented and compared with data from Cluster 2 spacecraft from 14 February 2003. Results show a cusp diamagnetic cavity (CDC) with depth normal to the magnetospheric boundary on the order of 1–2Re and a much larger extent of \textasciitilde{}5–9Re tangential to the boundary, bounded by a gradual inner boundary with the magnetospheric lobe and a more distinct exterior boundary with the magnetosheath. These results are qualitatively consistent with observational data.",

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author = "E. Adamson and A. Otto and K. Nykyri",

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T1 - 3-D Mesoscale MHD Simulations of a Cusp-Like Magnetic Configuration: Method and First Results

AU - Adamson, E.

AU - Otto, A.

AU - Nykyri, K.

PY - 2011/5/1

Y1 - 2011/5/1

N2 - We present a local mesoscale model of the magnetospheric cusp region with high resolution (up to 300 km). We discuss the construction and implementation of the initial configuration and give a detailed description of the numerical simulation. An overview of simulation results for the case of strongly northward interplanetary magnetic field (IMF) is then presented and compared with data from Cluster 2 spacecraft from 14 February 2003. Results show a cusp diamagnetic cavity (CDC) with depth normal to the magnetospheric boundary on the order of 1–2Re and a much larger extent of ~5–9Re tangential to the boundary, bounded by a gradual inner boundary with the magnetospheric lobe and a more distinct exterior boundary with the magnetosheath. These results are qualitatively consistent with observational data.

AB - We present a local mesoscale model of the magnetospheric cusp region with high resolution (up to 300 km). We discuss the construction and implementation of the initial configuration and give a detailed description of the numerical simulation. An overview of simulation results for the case of strongly northward interplanetary magnetic field (IMF) is then presented and compared with data from Cluster 2 spacecraft from 14 February 2003. Results show a cusp diamagnetic cavity (CDC) with depth normal to the magnetospheric boundary on the order of 1–2Re and a much larger extent of ~5–9Re tangential to the boundary, bounded by a gradual inner boundary with the magnetospheric lobe and a more distinct exterior boundary with the magnetosheath. These results are qualitatively consistent with observational data.

KW - magnetospheric physics

KW - solar-wind magnetosphere interactions

KW - space plasma physics

UR - https://commons.erau.edu/publication/728

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DO - 10.5194/angeo-29-759-2011

M3 - Article

SN - 1432-0576

VL - 29

JO - Annales Geophysicae

JF - Annales Geophysicae

ER -

3-D Mesoscale MHD Simulations of a Cusp-Like Magnetic Configuration: Method and First Results

Abstract

Keywords

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