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Relativistic resistive magnetohydrodynamic reconnection and plasmoid formation in merging flux tubes

Journal Article · · Monthly Notices of the Royal Astronomical Society
DOI:https://doi.org/10.1093/mnras/stz387· OSTI ID:1612629
 [1];  [2];  [3];  [4]
  1. Katholieke Univ. (KU) Leuven (Belgium); Inst. fur Theoretische Physik, Frankfurt (Germany); DOE/OSTI
  2. Inst. fur Theoretische Physik, Frankfurt (Germany); Univ. of Amsterdam (the Netherlands)
  3. Columbia Univ., New York, NY (United States)
  4. Katholieke Univ. (KU) Leuven (Belgium)
+ Show Author Affiliations
Herein we apply the general relativistic resistive magnetohydrodynamics code BHAC to perform a 2D study of the formation and evolution of a reconnection layer in between two merging magnetic flux tubes in Minkowski space–time. Small-scale effects in the regime of low resistivity most relevant for dilute astrophysical plasmas are resolved with very high accuracy due to the extreme resolutions obtained with adaptive mesh refinement. Numerical convergence in the highly non-linear plasmoid-dominated regime is confirmed for a sweep of resolutions. We employ both uniform resistivity and non-uniform resistivity based on the local, instantaneous current density. For uniform resistivity we find Sweet–Parker reconnection, from $$η$$ = 10-2 down to $$η$$ = 10-4, for a reference case of magnetization $$σ$$ = 3.33 and plasma-$$β$$ = 0.1. For uniform resistivity $$η$$ = 5 × 10-5 the tearing mode is recovered, resulting in the formation of secondary plasmoids. The plasmoid instability enhances the reconnection rate to $$v_{rec}$$ ~ 0.03$$c$$ compared to $$v_{rec}$$ ~ 0.01$$c$$ for $$η$$ = 10-4. For non-uniform resistivity with a base level $$η_0$$ = 10-4 and an enhanced current-dependent resistivity in the current sheet, we find an increased reconnection rate of $$v_{rec}$$ ~ 0.1$$c$$. The influence of the magnetization $$σ$$ and the plasma-$$β$$ is analysed for cases with uniform resistivity $$η$$ = 5 × 10-5 and $$η$$ = 10-4 in a range 0.5 ≤ $$σ$$ ≤ 10 and 0.01 ≤ $$β$$ ≤ 1 in regimes that are applicable for black hole accretion discs and jets. The plasmoid instability is triggered for Lundquist numbers larger than a critical value of $$S_c$$ ≈ 8000.
Research Organization:
Columbia Univ., New York, NY (United States)
Sponsoring Organization:
Belgian Science Policy Office (BELSPO); European Research Council (ERC); Flemish Government; National Aeronautic and Space Administration (NASA); National Science Foundation (NSF); Research Foundation Flanders (FWO); USDOE Office of Science (SC)
Grant/Contract Number:
SC0016542
OSTI ID:
1612629
Journal Information:
Monthly Notices of the Royal Astronomical Society, Journal Name: Monthly Notices of the Royal Astronomical Society Journal Issue: 1 Vol. 485; ISSN 0035-8711
Publisher:
Royal Astronomical SocietyCopyright Statement
Country of Publication:
United States
Language:
English

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Ideal MHD instabilities for coronal mass ejections text January 2019
Ideal MHD instabilities for coronal mass ejections: interacting current channels and particle acceleration journal November 2019
Modeling non-thermal emission from the jet-launching region of M 87 with adaptive mesh refinement journal November 2019
Accelerating AGN jets to parsec scales using general relativistic MHD simulations journal September 2019
The Event Horizon General Relativistic Magnetohydrodynamic Code Comparison Project collection January 2019
The Event Horizon General Relativistic Magnetohydrodynamic Code Comparison Project journal August 2019
General-relativistic Resistive Magnetohydrodynamics with Robust Primitive-variable Recovery for Accretion Disk Simulations journal September 2019
First M87 Event Horizon Telescope Results. V. Physical Origin of the Asymmetric Ring journal April 2019
Accelerating AGN jets to parsec scales using general relativistic MHD simulations text January 2019
The Event Horizon General Relativistic Magnetohydrodynamic Code Comparison Project text January 2019
First M87 Event Horizon Telescope Results. V. Physical Origin of the Asymmetric Ring text January 2019

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Related Subjects

79 ASTRONOMY AND ASTROPHYSICS
MHD
accretion
accretion discs
astronomy & astrophysics
black hole physics
magnetic reconnection
methods: numerical