Introduces kinetic pressure-strain and kinetic strain-rate tensor diagnostics to isolate velocity-space contributions to pressure-strain interaction from distinct populations in composite distributions, applied to 2D PIC simulations of antiparallel magnetic reconnection.
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Hybrid simulations of tearing reconnection show magnetic energy converts to ion bulk flows and heating in the nonlinear phase, with island contraction driving parallel ion temperature anisotropy that firehose instabilities regulate by redistributing energy to the perpendicular direction.
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Velocity space origins of pressure-strain interaction in multi-population distributions and its application to magnetic reconnection
Introduces kinetic pressure-strain and kinetic strain-rate tensor diagnostics to isolate velocity-space contributions to pressure-strain interaction from distinct populations in composite distributions, applied to 2D PIC simulations of antiparallel magnetic reconnection.
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Tearing Driven Reconnection: Energy Conversion Involving Firehose Kinetic Instabilities (2D Hybrid M\"obius Simulations)
Hybrid simulations of tearing reconnection show magnetic energy converts to ion bulk flows and heating in the nonlinear phase, with island contraction driving parallel ion temperature anisotropy that firehose instabilities regulate by redistributing energy to the perpendicular direction.