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PIC simulations of magnetic reconnection. Cerutti et al. 2013 3D PIC simulations of relativistic pair plasma reconnection (Zeltron code) Includes – Radiation.

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Presentation on theme: "PIC simulations of magnetic reconnection. Cerutti et al. 2013 3D PIC simulations of relativistic pair plasma reconnection (Zeltron code) Includes – Radiation."— Presentation transcript:

1 PIC simulations of magnetic reconnection

2 Cerutti et al. 2013 3D PIC simulations of relativistic pair plasma reconnection (Zeltron code) Includes – Radiation reaction force (Lorentz-Abraham-Dirac equation) – Guide field Results: Tearing instability and fast reconnection (xy-plane): 70% of the magnetic energy dissipated in particle acceleration. Kink instability of the current sheet (yz-plane): 55% of the total magnetic energy is dissipated. Relativistic kink instability disrupt the layer (see also, e.g., Zenitani & Hoshino 2008, Sironi & Spitkovsky 2011). A moderate guide field stabilizes the layer and enable particle acceleration

3 Tearing instability

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7 Kink instability of the current sheet

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12 12 Particle acceleration in reconnection takes place mainly around the X-type neutral region, where the amplitudes of magnetic fields are weak and charged particles become unmagnetized. They are accelerated by an inductive electric field perpendicular to the two-dimensional reconnection magnetic fields (Zenitani & Hoshino 2001). Ratio of the inductive electric field |E Y | to the magnetic field |B total | = (B X 2 +B Z 2 ) 1/2

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16 Baty, Petri, Zenitani 2013 Resistive relativistic 2D MHD simulations Fast reconnection during double tearing modes in relativistic plasma Time scale of instability weakly depending on the Lundquist number

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