Flowing plasmas and absorbing objects: analytic and numerical solutions culminating 80 years of ion-collection theory

Flowing plasmas and absorbing objects: analytic and numerical solutions culminating 80 years of ion-collection theory

Recent computational and theoretical progress in understanding and calculating ion collection by negatively charged absorbing objects in a flowing plasma is outlined. The results are placed in the context of key theoretical achievements of prior research. Despite the topic's long history, and p...

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Bibliographic Details
Main Authors: Hutchinson, Ian H. (Contributor), Patacchini, Leonardo (Contributor)
Other Authors: Massachusetts Institute of Technology. Department of Nuclear Science and Engineering (Contributor)
Format: Article
Language:English
Published: Institute of Physics, 2011-11-01T20:07:48Z.
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Summary:Recent computational and theoretical progress in understanding and calculating ion collection by negatively charged absorbing objects in a flowing plasma is outlined. The results are placed in the context of key theoretical achievements of prior research. Despite the topic's long history, and past profound insights, fully rigorous quantitative solution of the non-linear, multidimensional, self-consistent, kinetic-theory problem has not until recently been feasible. Now we are able to establish the adequacy or inadequacy of approximate treatments, and provide critical quantitative results. In the process, some qualitative surprises have also emerged.

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