Precise Derivation of the Intermediate Scale

• Published in: Journal of fusion energy Vol. 39; no. 1-2; pp. 53 - 60
• Main Author: Schneider, Anton
• Format: Journal Article
• Language: English
• Published: New York Springer US 01.04.2020; Springer; Springer Nature B.V
• Subjects: Derivation; Electrons; Energy Systems; Ion density (concentration); Ion velocity; Mathematical analysis; Nuclear Energy; Nuclear Fusion; Original Research; Parameters; Physics; Physics and Astronomy; Plasma; Plasma Physics; Sheaths; Sustainable Development; Temperature; Intermediate scale; Smooth transition; Sheath edge; Intermediate region; Plasma-sheath matching problem; Painlevé-I-Equation; Plasma-wall transition
• ISSN: 0164-0313; 1572-9591
• DOI: 10.1007/s10894-020-00234-9

A classical problem of plasma physics is the treatment of the plasma-wall transition. This can be reached in the presheath with a presheath scale, in the sheath with a sheath scale and between presheath and sheath with an “intermediate scale”. Riemann (J Tech Phys 41:89–121, 2000) published a derivation of the intermediate scale. In our calculation we take the non-quasineutral values for the ion density and the ion velocity at the point where the non-quasineutral solution of the potential is zero. This approach is consistent and valid also for small but finite values of the smallness parameter of the theory. An effect of taking the non-quasineutral values is that the potential is shifted, dependent on the magnitude of the smallness parameter. But this shifting has no consequences on the intermediate scale and so we get a similar result as K.-U. Riemann. Furthermore, we show that it is not necessary to take into account the temperature change in the vicinity of the sheath edge and that it is possible to work always strictly with the complete and normalized basic equations of the problem and not only with orders on the left or right hand side of these equations.