Initial boronization of the D3-D tokamak
Abstract
A system has been installed to deposit a thin film of elemental boron to the walls of the D3-D tokamak, in order to reduce the influx of impurities during plasma discharges. Subsequently new regimes of substantially tokamak energy confinement were obtained. The deposition of the boron layer is achieved during a glow discharge session using a helium-diborane age mixture and a film of approx. 100 nm is deposited. The boronization system includes special storage and handling precautions for the diborane, a delivery and metering system for the glow discharge, modifications to the tokamak's residual gas analyzer system, and a dedicated system for handling and neutralizing the exhaust gas from the tokamak. Tokamak discharges with similar parameters before and after boronization are used to characterize the effects of the boron film. Nickel has been reduced by a factor of 30, while impurities such as oxygen and carbon are reduced fivefold. A system of pulsing the flow discharge has been developed in order to improve the uniformity of the film applied.
- Publication:
-
Presented at the 38th National Symposium of the American Vacuum Society
- Pub Date:
- October 1991
- Bibcode:
- 1991avs..symp...11P
- Keywords:
-
- Boron;
- Diborane;
- Plasma Control;
- Plasma Jets;
- Tokamak Devices;
- Coating;
- Deposition;
- Film Thickness;
- Pressure Vessels;
- Purity;
- Thin Films;
- Plasma Physics