Drift and Separation in Collisionality Gradients
Plasma Physics
2023-05-18 v1
Abstract
We identify a single-particle drift resulting from collisional interactions with a background species, in the presence of a collisionality gradient and background net flow. We analyze this drift in different limits, showing how it reduces to the well known impurity pinch for high-Z i impurities. We find that in the low-temperature, singly-ionized limit, the magnitude of the drift becomes mass-dependent and energy-dependent. By solving for the resulting diffusion-advection motion, we propose a mass-separation scheme that takes advantage of this drift, and analyze the separative capability as a function of collisionally dissipated energy.
Keywords
Cite
@article{arxiv.1706.06644,
title = {Drift and Separation in Collisionality Gradients},
author = {I. E. Ochs and J. M. Rax and R. Gueroult and N. J. Fisch},
journal= {arXiv preprint arXiv:1706.06644},
year = {2023}
}
Comments
11 pages, 4 figures