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Hybrid simulations of mini-magnetospheres in the laboratory

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arxiv 0802.0107 v1 pith:5WSCATY3 submitted 2008-02-01 physics.space-ph physics.plasm-ph

Hybrid simulations of mini-magnetospheres in the laboratory

classification physics.space-ph physics.plasm-ph
keywords plasmaagreementfieldhybridionslaboratoryminireveal
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Solar energetic ions are a known hazard to both spacecraft electronics and to manned space flights in interplanetary space missions that extend over a long period of time. A dipole-like magnetic field and a plasma source, forming a mini magnetosphere, are being tested in the laboratory as means of protection against such hazards. We investigate, via particle-in-cell hybrid simulations, using kinetic ions and fluid electrons, the characteristics of the mini magnetospheres. Our results, for parameters identical to the experimental conditions, reveal the formation of a mini-magnetosphere, whose features are scanned with respect to the plasma density, the plasma flow velocity, and the intensity of the dipole field. Comparisons with a simplified theoretical model reveal a good qualitative agreement and excellent quantitative agreement for higher plasma dynamic pressures and lower B-fields.

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