Computer simulation of gyrophase self-organisation in a magnetoplasma

We report on the computer simulation of the dynamical effects of a collection of gyrating electrons in a magnetoplasma. The effects being looked into are the detailed microscopic current attractions that lead to synchronization and coherence amongst the gyrating electrons to give rise to gyro-phase...

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Published in:Computer physics communications 2004-12, Vol.164 (1), p.477-481
Main Authors: Subbarao, D., Arora, Manish, Uma, R., Phanendra, M.V.R., Singh, Krishna K.
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container_title Computer physics communications
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creator Subbarao, D.
Arora, Manish
Uma, R.
Phanendra, M.V.R.
Singh, Krishna K.
description We report on the computer simulation of the dynamical effects of a collection of gyrating electrons in a magnetoplasma. The effects being looked into are the detailed microscopic current attractions that lead to synchronization and coherence amongst the gyrating electrons to give rise to gyro-phase coherence. We use a simplified model that uses the Darwin Hamiltonian and also the assumption that the inter-electron distances are all equal in this version of the simulation.
doi_str_mv 10.1016/j.cpc.2004.06.065
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title Computer simulation of gyrophase self-organisation in a magnetoplasma
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