Slipping magnetic reconnection in coronal loops

Guillaume Aulanier; Leon Golub; Edward E. DeLuca; Jonathan W. Cirtain; Ryouhei Kano; Loraine L. Lundquist; Noriyuki Narukage; Taro Sakao; Mark A. Weber

doi:10.1126/science.1146143

Slipping magnetic reconnection in coronal loops

Guillaume Aulanier
, Leon Golub
, Edward E. DeLuca
, Jonathan W. Cirtain
, Ryouhei Kano
, Loraine L. Lundquist
, Noriyuki Narukage
, Taro Sakao
, Mark A. Weber

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

Abstract

Magnetic reconnection of solar coronal loops is the main process that causes solar flares and possibly coronal heating. In the standard model, magnetic field lines break and reconnect instantaneously at places where the field mapping is discontinuous. However, another mode may operate where the magnetic field mapping is continuous but shows steep gradients: The field lines may slip across each other. Soft x-ray observations of fast bidirectional motions of coronal loops, observed by the Hinode spacecraft, support the existence of this slipping magnetic reconnection regime in the Sun's corona. This basic process should be considered when interpreting reconnection, both on the Sun and in laboratory-based plasma experiments.

Original language	English
Pages (from-to)	1588-1591
Number of pages	4
Journal	Science
Volume	318
Issue number	5856
DOIs	https://doi.org/10.1126/science.1146143
Publication status	Published - 7 Dec 2007
Externally published	Yes

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title = "Slipping magnetic reconnection in coronal loops",

abstract = "Magnetic reconnection of solar coronal loops is the main process that causes solar flares and possibly coronal heating. In the standard model, magnetic field lines break and reconnect instantaneously at places where the field mapping is discontinuous. However, another mode may operate where the magnetic field mapping is continuous but shows steep gradients: The field lines may slip across each other. Soft x-ray observations of fast bidirectional motions of coronal loops, observed by the Hinode spacecraft, support the existence of this slipping magnetic reconnection regime in the Sun's corona. This basic process should be considered when interpreting reconnection, both on the Sun and in laboratory-based plasma experiments.",

author = "Guillaume Aulanier and Leon Golub and DeLuca, \{Edward E.\} and Cirtain, \{Jonathan W.\} and Ryouhei Kano and Lundquist, \{Loraine L.\} and Noriyuki Narukage and Taro Sakao and Weber, \{Mark A.\}",

year = "2007",

month = dec,

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doi = "10.1126/science.1146143",

language = "English",

volume = "318",

pages = "1588--1591",

journal = "Science",

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TY - JOUR

T1 - Slipping magnetic reconnection in coronal loops

AU - Aulanier, Guillaume

AU - Golub, Leon

AU - DeLuca, Edward E.

AU - Cirtain, Jonathan W.

AU - Kano, Ryouhei

AU - Lundquist, Loraine L.

AU - Narukage, Noriyuki

AU - Sakao, Taro

AU - Weber, Mark A.

PY - 2007/12/7

Y1 - 2007/12/7

N2 - Magnetic reconnection of solar coronal loops is the main process that causes solar flares and possibly coronal heating. In the standard model, magnetic field lines break and reconnect instantaneously at places where the field mapping is discontinuous. However, another mode may operate where the magnetic field mapping is continuous but shows steep gradients: The field lines may slip across each other. Soft x-ray observations of fast bidirectional motions of coronal loops, observed by the Hinode spacecraft, support the existence of this slipping magnetic reconnection regime in the Sun's corona. This basic process should be considered when interpreting reconnection, both on the Sun and in laboratory-based plasma experiments.

AB - Magnetic reconnection of solar coronal loops is the main process that causes solar flares and possibly coronal heating. In the standard model, magnetic field lines break and reconnect instantaneously at places where the field mapping is discontinuous. However, another mode may operate where the magnetic field mapping is continuous but shows steep gradients: The field lines may slip across each other. Soft x-ray observations of fast bidirectional motions of coronal loops, observed by the Hinode spacecraft, support the existence of this slipping magnetic reconnection regime in the Sun's corona. This basic process should be considered when interpreting reconnection, both on the Sun and in laboratory-based plasma experiments.

U2 - 10.1126/science.1146143

DO - 10.1126/science.1146143

M3 - Article

AN - SCOPUS:36849014373

SN - 0036-8075

VL - 318

SP - 1588

EP - 1591

JO - Science

JF - Science

IS - 5856

ER -

Slipping magnetic reconnection in coronal loops

Abstract

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