On the Effect of Driving Turbulent-like Fluctuations on a Harris Current Sheet Configuration and the Formation of Plasmoids

Academic Article

Abstract

  • Abstract Energy dissipation in collisionless plasmas is one of the most outstanding open questions in plasma physics. Magnetic reconnection and turbulence are two phenomena that can produce the conditions for energy dissipation. These two phenomena are closely related to each other in a wide range of plasmas. Turbulent fluctuations can emerge in critical regions of reconnection events, and magnetic reconnection can occur as a product of the turbulent cascade. In this study, we perform 2D particle-in-cell simulations of a reconnecting Harris current sheet in the presence of turbulent fluctuations to explore the effect of turbulence on the reconnection process in collisionless nonrelativistic pair plasmas. We find that the presence of a turbulent field can affect the onset and evolution of magnetic reconnection. Moreover, we observe the existence of a scale-dependent amplitude of magnetic field fluctuations above which these fluctuations are able to disrupt the growing of magnetic islands. These fluctuations provide thermal energy to the particles within the current sheet and preferential perpendicular thermal energy to the background population.
  • Authors

  • Agudelo Rueda, Jeffersson A
  • Liu, Yi-Hsin
  • Germaschewski, Kai
  • Hesse, Michael
  • Bessho, Naoki
  • Status

    Publication Date

  • August 1, 2024
  • Has Subject Area

    Digital Object Identifier (doi)

    Start Page

  • 109
  • End Page

  • 109
  • Volume

  • 971
  • Issue

  • 1