Magnetic knot cascade via the stepwise reconnection of helical flux tubes

We report a knot cascade of magnetic field lines through the stepwise reconnection of a pair of orthogonal helical flux tubes with opposite chirality. The magnetic-surface field is developed to identify the evolution of flux tubes and pinpoint the reconnection region. We find that the incipient X-ty...

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Published inJournal of fluid mechanics Vol. 912
Main Authors Hao, Jinhua, Yang, Yue
Format Journal Article
LanguageEnglish
Published Cambridge, UK Cambridge University Press 18.02.2021
Subjects
Chirality
Evolution
Fluctuations
JFM Papers
Kinetic energy
Knots
Lorentz force
Magnetic field
Magnetic fields
Magnetic flux
Probability density functions
Probability theory
Simulation
Tertiary
Tubes
Vortices
topological fluid dynamics
plasmas
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Abstract We report a knot cascade of magnetic field lines through the stepwise reconnection of a pair of orthogonal helical flux tubes with opposite chirality. The magnetic-surface field is developed to identify the evolution of flux tubes and pinpoint the reconnection region. We find that the incipient X-type magnetic reconnection generates antiparallel U-shaped field lines moving in opposite directions away from the plasmoid. This reconnection is characterized by the decay of the magnetic flux through the diagonal symmetric planes. Subsequently, overhand magnetic knots are tied via the secondary reconnection, coinciding with the notable conversion from magnetic energy to kinetic energy. The knotted field lines are then rotated and stretched in the plasmoid by the vortical-like local motion induced by the magnetic knots themselves via the Lorentz force. This nonlinear evolution triggers the tertiary reconnection to form double overhand knots, and then further reconnections to produce more complex knots. From field lines extracted at different times, the knot cascade via the sequence of reconnections in a finite time period is quantified by the increment of the minimum crossing number and the migration of the probability density function of the Alexander–Briggs notation. Finally, the knot cascade slows down and then terminates due to resistive and viscous dissipations.
AbstractList We report a knot cascade of magnetic field lines through the stepwise reconnection of a pair of orthogonal helical flux tubes with opposite chirality. The magnetic-surface field is developed to identify the evolution of flux tubes and pinpoint the reconnection region. We find that the incipient X-type magnetic reconnection generates antiparallel U-shaped field lines moving in opposite directions away from the plasmoid. This reconnection is characterized by the decay of the magnetic flux through the diagonal symmetric planes. Subsequently, overhand magnetic knots are tied via the secondary reconnection, coinciding with the notable conversion from magnetic energy to kinetic energy. The knotted field lines are then rotated and stretched in the plasmoid by the vortical-like local motion induced by the magnetic knots themselves via the Lorentz force. This nonlinear evolution triggers the tertiary reconnection to form double overhand knots, and then further reconnections to produce more complex knots. From field lines extracted at different times, the knot cascade via the sequence of reconnections in a finite time period is quantified by the increment of the minimum crossing number and the migration of the probability density function of the Alexander–Briggs notation. Finally, the knot cascade slows down and then terminates due to resistive and viscous dissipations.
ArticleNumber A48
Author Hao, Jinhua
Yang, Yue
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  surname: Yang
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CitedBy_id crossref_primary_10_1017_jfm_2022_464
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crossref_primary_10_1063_5_0252708
crossref_primary_10_1063_5_0058109
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Snippet We report a knot cascade of magnetic field lines through the stepwise reconnection of a pair of orthogonal helical flux tubes with opposite chirality. The...
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SubjectTerms Chirality
Evolution
Fluctuations
JFM Papers
Kinetic energy
Knots
Lorentz force
Magnetic field
Magnetic fields
Magnetic flux
Probability density functions
Probability theory
Simulation
Tertiary
Tubes
Vortices
Title Magnetic knot cascade via the stepwise reconnection of helical flux tubes
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Volume 912
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