Title :
Effect of in-situ pulse-heating of tantalum anodes on the radiation from bremsstrahlung diodes
Author :
Weber, B.V. ; Allen, R.J. ; Commisso, R.J. ; Cooperstein, G. ; Moosman, B.G. ; Stephanakis, S.J. ; Young, F.C. ; Pereira, N.R.
Author_Institution :
Div. of Plasma Phys., Naval Res. Lab., Washington, DC, USA
Abstract :
Pulse-heating tantalum anodes in bremsstrahlung diodes to >2600 K results in improved bremsstrahlung production. The proton current (from hydrogen impurities) is reduced by more than two orders of magnitude, beam pinching is suppressed, and the far-field dose is increased by 20%. The dose increase is a result of reduced ion current and enhanced electron reflexing through the subrange tantalum foil. A stretching mechanism was used to keep the foil flat and taut during heating. The radiation pattern is symmetric and hollow, producing a more uniform near-field dose distribution than for a pinched beam. This technique can be used to improve X-ray production on high-power generators such as Decade.
Keywords :
X-ray production; electron beams; foils; plasma diodes; plasma heating; plasma transport processes; tantalum; 0 to 2600 K; Ta; X-ray production; beam pinching; bremsstrahlung diodes; enhanced electron reflexing; far-field dose; high-power generators; hydrogen impurities; in-situ pulse-heating; proton current; radiation pattern; reduced ion current; stretching mechanism; tantalum anodes; tantalum foil; Anodes; Current measurement; Diodes; Gases; Heating; Hydrogen; Impurities; Production; Temperature; Voltage;
Conference_Titel :
Pulsed Power Plasma Science, 2001. PPPS-2001. Digest of Technical Papers
Conference_Location :
Las Vegas, NV, USA
Print_ISBN :
0-7803-7120-8
DOI :
10.1109/PPPS.2001.1001800
