Release of magnetic energy in asymmetrical quadrupolar force-free fields

Xing Li; You Qiu Hu

doi:10.1016/0275-1062(96)00029-X

Release of magnetic energy in asymmetrical quadrupolar force-free fields

Xing Li^*, You Qiu Hu

^*Awdur cyfatebol y gwaith hwn

Adran Ffiseg

Dept. of Earth and Space Sciences

Allbwn ymchwil: Cyfraniad at gyfnodolyn › Erthygl › adolygiad gan gymheiriaid

1 Dyfyniad (Scopus)

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Using a two-dimensional, three-component dissipative MHD model we numerically simulated the process of magnetic energy release in a local asymmetrical quadrupolar force-free field with a high current layer. The results show that the process can be divided into two stages, first, anomalous resistive dissipation in the high current layer heats up the plasma in the layer to 3×10⁶K, forming a hot ring; next, triggered by the dissipation, the current in the magnetic separation surface rises rapidly and erupts into anomalous resistive dissipation and field reconnection. The main energy release takes place at the magnetic separation line and the separation surface in the high-shear force-free field, with the plasma temperature as high as 1.9×10⁷K. This process of triggered energy release may be an important mechanism of solar flares.

Iaith wreiddiol	Saesneg
Tudalennau (o-i)	205-213
Nifer y tudalennau	9
Cyfnodolyn	Chinese Astronomy and Astrophysics
Cyfrol	20
Rhif cyhoeddi	2
Dynodwyr Gwrthrych Digidol (DOIs)	https://doi.org/10.1016/0275-1062(96)00029-X
Statws	Cyhoeddwyd - 1996

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10.1016/0275-1062(96)00029-X

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@article{e05e564871414dabbe457510503c96df,

title = "Release of magnetic energy in asymmetrical quadrupolar force-free fields",

abstract = "Using a two-dimensional, three-component dissipative MHD model we numerically simulated the process of magnetic energy release in a local asymmetrical quadrupolar force-free field with a high current layer. The results show that the process can be divided into two stages, first, anomalous resistive dissipation in the high current layer heats up the plasma in the layer to 3×106K, forming a hot ring; next, triggered by the dissipation, the current in the magnetic separation surface rises rapidly and erupts into anomalous resistive dissipation and field reconnection. The main energy release takes place at the magnetic separation line and the separation surface in the high-shear force-free field, with the plasma temperature as high as 1.9×107K. This process of triggered energy release may be an important mechanism of solar flares.",

keywords = "Forece-free field, Magnetohydrodynamics",

author = "Xing Li and Hu, {You Qiu}",

year = "1996",

doi = "10.1016/0275-1062(96)00029-X",

language = "English",

volume = "20",

pages = "205--213",

journal = "Chinese Astronomy and Astrophysics",

issn = "0275-1062",

publisher = "Elsevier",

number = "2",

}

TY - JOUR

T1 - Release of magnetic energy in asymmetrical quadrupolar force-free fields

AU - Li, Xing

AU - Hu, You Qiu

PY - 1996

Y1 - 1996

N2 - Using a two-dimensional, three-component dissipative MHD model we numerically simulated the process of magnetic energy release in a local asymmetrical quadrupolar force-free field with a high current layer. The results show that the process can be divided into two stages, first, anomalous resistive dissipation in the high current layer heats up the plasma in the layer to 3×106K, forming a hot ring; next, triggered by the dissipation, the current in the magnetic separation surface rises rapidly and erupts into anomalous resistive dissipation and field reconnection. The main energy release takes place at the magnetic separation line and the separation surface in the high-shear force-free field, with the plasma temperature as high as 1.9×107K. This process of triggered energy release may be an important mechanism of solar flares.

AB - Using a two-dimensional, three-component dissipative MHD model we numerically simulated the process of magnetic energy release in a local asymmetrical quadrupolar force-free field with a high current layer. The results show that the process can be divided into two stages, first, anomalous resistive dissipation in the high current layer heats up the plasma in the layer to 3×106K, forming a hot ring; next, triggered by the dissipation, the current in the magnetic separation surface rises rapidly and erupts into anomalous resistive dissipation and field reconnection. The main energy release takes place at the magnetic separation line and the separation surface in the high-shear force-free field, with the plasma temperature as high as 1.9×107K. This process of triggered energy release may be an important mechanism of solar flares.

KW - Forece-free field

KW - Magnetohydrodynamics

UR - http://www.scopus.com/inward/record.url?scp=0030119928&partnerID=8YFLogxK

U2 - 10.1016/0275-1062(96)00029-X

DO - 10.1016/0275-1062(96)00029-X

M3 - Article

AN - SCOPUS:0030119928

SN - 0275-1062

VL - 20

SP - 205

EP - 213

JO - Chinese Astronomy and Astrophysics

JF - Chinese Astronomy and Astrophysics

IS - 2

ER -

Release of magnetic energy in asymmetrical quadrupolar force-free fields

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