Hot ion plasma production in HIP-1 using water-cooled hollow cathodes
Abstract
A steady-state ExB plasma was formed by applying a strong radially inward dc electric field near the mirror throats. Most of the results were for hydrogen, but deuterium and helium plasmas were also studied. Three water-cooled hollow cathodes were operated in the hot-ion plasma mode with the following results: (1) thermally emitting cathodes were not required to achieve the hot-ion mode; (2) steady-state operation (several minutes) was attained; (3) input powers greater than 40 kW were achieved; (4) cathode outside diameters were increased from 1.2 cm (uncooled) to 4.4 cm (water-cooled); (5) steady-state hydrogen plasma with ion temperatures from 185 to 770 eV and electron temperatures from 5 to 21 eV were produced. Scaling relations were empirically obtained for discharge current, ion temperature, electron temperature, and relative ion density as a function of hydrogen gas feed rate, magnetic field, and cathode voltage. Neutrons were produced from deuterium plasma, but it was not established whether thay came from the plasma volume or from the electrode surfaces.
- Publication:
-
Presented at Seventh Ann. Meeting of Div. of Plasma Physics of Am. Phys. Soc
- Pub Date:
- November 1975
- Bibcode:
- 1975aps..meet...10R
- Keywords:
-
- Deuterium Plasma;
- Helium Plasma;
- High Temperature Plasmas;
- Hollow Cathodes;
- Hydrogen Plasma;
- Ion Temperature;
- Magnetic Fields;
- Magnetic Mirrors;
- Thermal Emission;
- Plasma Physics