The topological behaviour of 3D null points in the Sun's corona

DS Brown; Eric Ronald Priest

The topological behaviour of 3D null points in the Sun's corona

Applied Mathematics

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

Abstract

Many traditional two-dimensional models of flares and other reconnective events rely on an X-point in the corona which collapses to form a current sheet where reconnection takes place. However, the Sun's corona is three-dimensional and the X-point is only a two-dimensional artifact. Three-dimensional models can instead make use of 3D null points in the corona, and Priest & Titov (1996) have studied how reconnection may take place at such locations. This paper aims to study possible conditions for coronal nulls to occur, and how they can be born. It starts with three negative sources and a positive source that is weaker than the sum of the negative sources. As the positive source moves inwards towards the negative sources; there is a local double-separator bifurcation of the topology to a new state, referred to as a Coronal Null state; which contains a null point. above the photosphere.

Original language	English
Pages (from-to)	339-346
Number of pages	8
Journal	Astronomy & Astrophysics
Volume	367
Publication status	Published - Feb 2001

Keywords

Sun : corona, magnetic fields
3-DIMENSIONAL KINEMATIC RECONNECTION
SOLAR ACTIVE REGIONS
MAGNETIC-FIELDS
FLARES
MODEL
FLUX
EQUILIBRIUM
SEPARATORS
HELICITY
COMPLEX

Cite this

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title = "The topological behaviour of 3D null points in the Sun's corona",

abstract = "Many traditional two-dimensional models of flares and other reconnective events rely on an X-point in the corona which collapses to form a current sheet where reconnection takes place. However, the Sun's corona is three-dimensional and the X-point is only a two-dimensional artifact. Three-dimensional models can instead make use of 3D null points in the corona, and Priest & Titov (1996) have studied how reconnection may take place at such locations. This paper aims to study possible conditions for coronal nulls to occur, and how they can be born. It starts with three negative sources and a positive source that is weaker than the sum of the negative sources. As the positive source moves inwards towards the negative sources; there is a local double-separator bifurcation of the topology to a new state, referred to as a Coronal Null state; which contains a null point. above the photosphere.",

keywords = "Sun : corona, magnetic fields, 3-DIMENSIONAL KINEMATIC RECONNECTION, SOLAR ACTIVE REGIONS, MAGNETIC-FIELDS, FLARES, MODEL, FLUX, EQUILIBRIUM, SEPARATORS, HELICITY, COMPLEX",

author = "DS Brown and Priest, {Eric Ronald}",

year = "2001",

month = feb,

language = "English",

volume = "367",

pages = "339--346",

journal = "Astronomy & Astrophysics",

issn = "0004-6361",

publisher = "EDP SCIENCES S A",

}

TY - JOUR

T1 - The topological behaviour of 3D null points in the Sun's corona

AU - Brown, DS

AU - Priest, Eric Ronald

PY - 2001/2

Y1 - 2001/2

N2 - Many traditional two-dimensional models of flares and other reconnective events rely on an X-point in the corona which collapses to form a current sheet where reconnection takes place. However, the Sun's corona is three-dimensional and the X-point is only a two-dimensional artifact. Three-dimensional models can instead make use of 3D null points in the corona, and Priest & Titov (1996) have studied how reconnection may take place at such locations. This paper aims to study possible conditions for coronal nulls to occur, and how they can be born. It starts with three negative sources and a positive source that is weaker than the sum of the negative sources. As the positive source moves inwards towards the negative sources; there is a local double-separator bifurcation of the topology to a new state, referred to as a Coronal Null state; which contains a null point. above the photosphere.

AB - Many traditional two-dimensional models of flares and other reconnective events rely on an X-point in the corona which collapses to form a current sheet where reconnection takes place. However, the Sun's corona is three-dimensional and the X-point is only a two-dimensional artifact. Three-dimensional models can instead make use of 3D null points in the corona, and Priest & Titov (1996) have studied how reconnection may take place at such locations. This paper aims to study possible conditions for coronal nulls to occur, and how they can be born. It starts with three negative sources and a positive source that is weaker than the sum of the negative sources. As the positive source moves inwards towards the negative sources; there is a local double-separator bifurcation of the topology to a new state, referred to as a Coronal Null state; which contains a null point. above the photosphere.

KW - Sun : corona, magnetic fields

KW - 3-DIMENSIONAL KINEMATIC RECONNECTION

KW - SOLAR ACTIVE REGIONS

KW - MAGNETIC-FIELDS

KW - FLARES

KW - MODEL

KW - FLUX

KW - EQUILIBRIUM

KW - SEPARATORS

KW - HELICITY

KW - COMPLEX

M3 - Article

SN - 0004-6361

VL - 367

SP - 339

EP - 346

JO - Astronomy & Astrophysics

JF - Astronomy & Astrophysics

ER -

The topological behaviour of 3D null points in the Sun's corona

Abstract

Keywords

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