GENERATION OF QUASI-PERIODIC WAVES AND FLOWS IN THE SOLAR ATMOSPHERE BY OSCILLATORY RECONNECTION

J. A. McLaughlin; G. Verth; V. Fedun; R. Erdelyi

doi:10.1088/0004-637X/749/1/30

GENERATION OF QUASI-PERIODIC WAVES AND FLOWS IN THE SOLAR ATMOSPHERE BY OSCILLATORY RECONNECTION

J. A. McLaughlin^*, G. Verth, V. Fedun, R. Erdelyi

^*Corresponding author for this work

Applied Mathematics

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

Abstract

We investigate the long-term evolution of an initially buoyant magnetic flux tube emerging into a gravitationally stratified coronal hole environment and report on the resulting oscillations and outflows. We perform 2.5-dimensional nonlinear numerical simulations, generalizing the models of McLaughlin et al. and Murray et al. We find that the physical mechanism of oscillatory reconnection naturally generates quasi-periodic vertical outflows, with a transverse/swaying aspect. The vertical outflows consist of both a periodic aspect and evidence of a positively directed flow. The speed of the vertical outflow (20-60 km s(-1)) is comparable to those reported in the observational literature. We also perform a parametric study varying the magnetic strength of the buoyant flux tube and find a range of associated periodicities: 1.75-3.5 minutes. Thus, the mechanism of oscillatory reconnection may provide a physical explanation to some of the high-speed, quasi-periodic, transverse outflows/jets recently reported by a multitude of authors and instruments.

Original language	English
Article number	30
Number of pages	10
Journal	Astrophysical Journal
Volume	749
Issue number	1
DOIs	https://doi.org/10.1088/0004-637X/749/1/30
Publication status	Published - 10 Apr 2012

Keywords

magnetic reconnection
magnetohydrodynamics (MHD)
Sun: activity
Sun: magnetic topology
Sun: oscillations
waves
X-RAY JETS
RAYLEIGH-TAYLOR INSTABILITY
SLOW MAGNETOACOUSTIC WAVES
CHROMOSPHERIC ANEMONE JETS
EMERGING MAGNETIC-FLUX
ALFVEN WAVES
ACTIVE-REGION
CORONAL HOLE
CONVECTIVE INSTABILITY
FILAMENTARY STRUCTURE

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10.1088/0004-637X/749/1/30

Parallel Computing Resources UK MHD: Parallel computing resources
Hood, A. W. (PI)
Science & Technology Facilities Council
1/12/09 → 30/11/12
Project: Standard

Cite this

@article{ed9d9a6c4a31496aa07d54b37bb7d4d2,

title = "GENERATION OF QUASI-PERIODIC WAVES AND FLOWS IN THE SOLAR ATMOSPHERE BY OSCILLATORY RECONNECTION",

abstract = "We investigate the long-term evolution of an initially buoyant magnetic flux tube emerging into a gravitationally stratified coronal hole environment and report on the resulting oscillations and outflows. We perform 2.5-dimensional nonlinear numerical simulations, generalizing the models of McLaughlin et al. and Murray et al. We find that the physical mechanism of oscillatory reconnection naturally generates quasi-periodic vertical outflows, with a transverse/swaying aspect. The vertical outflows consist of both a periodic aspect and evidence of a positively directed flow. The speed of the vertical outflow (20-60 km s(-1)) is comparable to those reported in the observational literature. We also perform a parametric study varying the magnetic strength of the buoyant flux tube and find a range of associated periodicities: 1.75-3.5 minutes. Thus, the mechanism of oscillatory reconnection may provide a physical explanation to some of the high-speed, quasi-periodic, transverse outflows/jets recently reported by a multitude of authors and instruments.",

keywords = "magnetic reconnection, magnetohydrodynamics (MHD), Sun: activity, Sun: magnetic topology, Sun: oscillations, waves, X-RAY JETS, RAYLEIGH-TAYLOR INSTABILITY, SLOW MAGNETOACOUSTIC WAVES, CHROMOSPHERIC ANEMONE JETS, EMERGING MAGNETIC-FLUX, ALFVEN WAVES, ACTIVE-REGION, CORONAL HOLE, CONVECTIVE INSTABILITY, FILAMENTARY STRUCTURE",

author = "McLaughlin, {J. A.} and G. Verth and V. Fedun and R. Erdelyi",

year = "2012",

month = apr,

day = "10",

doi = "10.1088/0004-637X/749/1/30",

language = "English",

volume = "749",

journal = "Astrophysical Journal",

issn = "0004-637X",

publisher = "American Astronomical Society",

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T1 - GENERATION OF QUASI-PERIODIC WAVES AND FLOWS IN THE SOLAR ATMOSPHERE BY OSCILLATORY RECONNECTION

AU - McLaughlin, J. A.

AU - Verth, G.

AU - Fedun, V.

AU - Erdelyi, R.

PY - 2012/4/10

Y1 - 2012/4/10

N2 - We investigate the long-term evolution of an initially buoyant magnetic flux tube emerging into a gravitationally stratified coronal hole environment and report on the resulting oscillations and outflows. We perform 2.5-dimensional nonlinear numerical simulations, generalizing the models of McLaughlin et al. and Murray et al. We find that the physical mechanism of oscillatory reconnection naturally generates quasi-periodic vertical outflows, with a transverse/swaying aspect. The vertical outflows consist of both a periodic aspect and evidence of a positively directed flow. The speed of the vertical outflow (20-60 km s(-1)) is comparable to those reported in the observational literature. We also perform a parametric study varying the magnetic strength of the buoyant flux tube and find a range of associated periodicities: 1.75-3.5 minutes. Thus, the mechanism of oscillatory reconnection may provide a physical explanation to some of the high-speed, quasi-periodic, transverse outflows/jets recently reported by a multitude of authors and instruments.

AB - We investigate the long-term evolution of an initially buoyant magnetic flux tube emerging into a gravitationally stratified coronal hole environment and report on the resulting oscillations and outflows. We perform 2.5-dimensional nonlinear numerical simulations, generalizing the models of McLaughlin et al. and Murray et al. We find that the physical mechanism of oscillatory reconnection naturally generates quasi-periodic vertical outflows, with a transverse/swaying aspect. The vertical outflows consist of both a periodic aspect and evidence of a positively directed flow. The speed of the vertical outflow (20-60 km s(-1)) is comparable to those reported in the observational literature. We also perform a parametric study varying the magnetic strength of the buoyant flux tube and find a range of associated periodicities: 1.75-3.5 minutes. Thus, the mechanism of oscillatory reconnection may provide a physical explanation to some of the high-speed, quasi-periodic, transverse outflows/jets recently reported by a multitude of authors and instruments.

KW - magnetic reconnection

KW - magnetohydrodynamics (MHD)

KW - Sun: activity

KW - Sun: magnetic topology

KW - Sun: oscillations

KW - waves

KW - X-RAY JETS

KW - RAYLEIGH-TAYLOR INSTABILITY

KW - SLOW MAGNETOACOUSTIC WAVES

KW - CHROMOSPHERIC ANEMONE JETS

KW - EMERGING MAGNETIC-FLUX

KW - ALFVEN WAVES

KW - ACTIVE-REGION

KW - CORONAL HOLE

KW - CONVECTIVE INSTABILITY

KW - FILAMENTARY STRUCTURE

U2 - 10.1088/0004-637X/749/1/30

DO - 10.1088/0004-637X/749/1/30

M3 - Article

SN - 0004-637X

VL - 749

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1

M1 - 30

ER -

GENERATION OF QUASI-PERIODIC WAVES AND FLOWS IN THE SOLAR ATMOSPHERE BY OSCILLATORY RECONNECTION

Abstract

Keywords

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