In multispecies relativistic turbulence, energization occurs at reconnection current sheets driven by the divergence of the relativistic pressure tensor, with electrons accelerated more efficiently than positrons due to species imbalance.
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3D kinetic simulations find that merging Lundquist flux tubes produce delayed reconnection onset in 3D, a normalized reconnection rate of 0.08-0.10, and nonthermal particle spectra with power-law index 1.6-2.0 and cutoff gamma_cut/sigma_in approximately 50.
citing papers explorer
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Particle-acceleration mechanisms in multispecies relativistic plasmas
In multispecies relativistic turbulence, energization occurs at reconnection current sheets driven by the divergence of the relativistic pressure tensor, with electrons accelerated more efficiently than positrons due to species imbalance.
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3D Kinetic Simulations of Driven Reconnection in Merging Flux Tubes
3D kinetic simulations find that merging Lundquist flux tubes produce delayed reconnection onset in 3D, a normalized reconnection rate of 0.08-0.10, and nonthermal particle spectra with power-law index 1.6-2.0 and cutoff gamma_cut/sigma_in approximately 50.