A biased probe analysis of potential well formation in an electron only, low beta Polywell magnetic field
Abstract
Orbital limited motion theory has been applied to two biased probes in a low beta Polywell. The cases studied include electron injection, magnetic field scaling, Polywell bias scaling, and radial position profiles. Langmuir's original orbital limited motion results for a monoenergetic electron beam are shown to be in excellent agreement for electron injection into the Polywell. A distribution function is proposed for the electron plasma characteristics in the centre of the magnetic null and confirmed with experimental results. A translational stage was used to measure the radial plasma potential profile. In other experiments, two probes were used to simultaneously measure the profiles in both the null and a position halfway along a corner cusp. The results confirm a radial potential well created by electron trapping in the device. In addition, we present preliminary results of the potential well scaling with the magnetic field, Polywell bias voltage, and the injected beam current. The electron population was found to maintain non-equilibrium in all cases studied.
- Publication:
-
Physics of Plasmas
- Pub Date:
- May 2013
- DOI:
- Bibcode:
- 2013PhPl...20e2504C
- Keywords:
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- electron beams;
- plasma confinement;
- plasma probes;
- plasma transport processes;
- 52.70.Ds;
- 52.55.Lf;
- 52.25.Fi;
- Electric and magnetic measurements;
- Field-reversed configurations rotamaks astrons ion rings magnetized target fusion and cusps;
- Transport properties