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Publication Detailed Description
Journal Title
Physical Review E
Year (definitive publication)
2022
Language
English
Country
United States of America
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Abstract
The nonlinear evolution of electromagnetic instabilities driven by the interpenetration of two e-,e+ plasma clouds is explored using ab initio kinetic plasma simulations. We show that the plasma clouds slow down due to both oblique and Weibel generated electromagnetic fields, which deflect the particle trajectories, transferring bulk forward momentum into transverse momentum and thermal velocity spread. This process causes the flow velocity vinst to decrease approximately by a factor of 1/3 in a time interval ?t?B?p∼c/(vfl?B), where ?B is the magnetic equipartition parameter determined by the nonlinear saturation of the instabilities, vfl is the initial flow speed, and ?p is the plasma frequency. For the ?B measured in our simulations, ?t?B is close to 10 times the instability growth time. We show that as long as the plasma slab length L>vfl?t?B, the plasma flow is expected to slow down by a factor close to 1/3.
Acknowledgements
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Keywords
Fields of Science and Technology Classification
- Mathematics - Natural Sciences
- Physical Sciences - Natural Sciences
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