Three-dimensional MHD Simulations of Solar Prominence Oscillations in a Magnetic Flux Rope

Solar prominences are subject to all kinds of perturbations during their lifetime, and frequently demonstrate oscillations. The study of prominence oscillations provides an alternative way to investigate their internal magnetic and thermal structures because the characteristics of the oscillations d...

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Published inThe Astrophysical journal Vol. 856; no. 2; pp. 179 - 192
Main Authors Zhou, Yu-Hao, Xia, C., Keppens, R., Fang, C., Chen, P. F.
Format Journal Article
LanguageEnglish
Published Philadelphia The American Astronomical Society 01.04.2018
IOP Publishing
Subjects
Astrophysics
Computational fluid dynamics
Computer simulation
Corona
Fluid flow
Horizontal loads
Magnetic flux
Magnetohydrodynamic simulation
magnetohydrodynamics (MHD)
methods: numerical
Pendulums
Prominences
Solar corona
Solar oscillations
Solar prominences
Sun: filaments, prominences
Sun: oscillations
Transverse oscillation
Two dimensional models
Vertical oscillations
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Abstract Solar prominences are subject to all kinds of perturbations during their lifetime, and frequently demonstrate oscillations. The study of prominence oscillations provides an alternative way to investigate their internal magnetic and thermal structures because the characteristics of the oscillations depend on their interplay with the solar corona. Prominence oscillations can be classified into longitudinal and transverse types. We perform three-dimensional ideal magnetohydrodynamic simulations of prominence oscillations along a magnetic flux rope, with the aim of comparing the oscillation periods with those predicted by various simplified models and examining the restoring force. We find that the longitudinal oscillation has a period of about 49 minutes, which is in accordance with the pendulum model where the field-aligned component of gravity serves as the restoring force. In contrast, the horizontal transverse oscillation has a period of about 10 minutes and the vertical transverse oscillation has a period of about 14 minutes, and both of them can be nicely fitted with a two-dimensional slab model. We also find that the magnetic tension force dominates most of the time in transverse oscillations, except for the first minute when magnetic pressure overwhelms it.
AbstractList Solar prominences are subject to all kinds of perturbations during their lifetime, and frequently demonstrate oscillations. The study of prominence oscillations provides an alternative way to investigate their internal magnetic and thermal structures because the characteristics of the oscillations depend on their interplay with the solar corona. Prominence oscillations can be classified into longitudinal and transverse types. We perform three-dimensional ideal magnetohydrodynamic simulations of prominence oscillations along a magnetic flux rope, with the aim of comparing the oscillation periods with those predicted by various simplified models and examining the restoring force. We find that the longitudinal oscillation has a period of about 49 minutes, which is in accordance with the pendulum model where the field-aligned component of gravity serves as the restoring force. In contrast, the horizontal transverse oscillation has a period of about 10 minutes and the vertical transverse oscillation has a period of about 14 minutes, and both of them can be nicely fitted with a two-dimensional slab model. We also find that the magnetic tension force dominates most of the time in transverse oscillations, except for the first minute when magnetic pressure overwhelms it.
Author Fang, C.
Zhou, Yu-Hao
Keppens, R.
Xia, C.
Chen, P. F.
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  surname: Keppens
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  organization: Centre for mathematical Plasma Astrophysics, Department of Mathematics , KU Leuven, Celestijnenlaan 200B, B-3001 Leuven, Belgium
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  surname: Chen
  fullname: Chen, P. F.
  email: chenpf@nju.edu.cn
  organization: Key Laboratory of Modern Astronomy & Astrophysics (Nanjing University), Ministry of Education, Nanjing 210023, People's Republic of China
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Snippet Solar prominences are subject to all kinds of perturbations during their lifetime, and frequently demonstrate oscillations. The study of prominence...
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iop
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SubjectTerms Astrophysics
Computational fluid dynamics
Computer simulation
Corona
Fluid flow
Horizontal loads
Magnetic flux
Magnetohydrodynamic simulation
magnetohydrodynamics (MHD)
methods: numerical
Pendulums
Prominences
Solar corona
Solar oscillations
Solar prominences
Sun: filaments, prominences
Sun: oscillations
Transverse oscillation
Two dimensional models
Vertical oscillations
Title Three-dimensional MHD Simulations of Solar Prominence Oscillations in a Magnetic Flux Rope
URI https://iopscience.iop.org/article/10.3847/1538-4357/aab614
https://www.proquest.com/docview/2365715693
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