Title :
The effect of the initial gas density and gas shell profile in a small gas-puff Z-pinch
Author :
Chengrong Li ; Tsinchi Yang, Tsinchi Yang ; Chengmu Luo, Chengmu Luo ; Min Han
Abstract :
Summary form only given. The authors determined the thickness and mass of the initial gas shell from three different kinds of nozzles and measured the corresponding X-ray yield (2 keV<hv<6 keV) in a small gas-puff, Z-pinch device which consists of a fast valve, a supersonic nozzle of Mach 4, and a capacitor bank charged to 25-30 kV. They also studied the plasma dynamics with laser differential interferometry. The experimental results have revealed that the thinner gas shell creates higher implosion velocity, higher X-ray yield, and smaller minimum radius of the pinched plasma column. This phenomenon might be explained in the following way: as the thinner gas shell has a small mass, the velocity of plasma will be higher under the same discharge current, producing higher temperature and higher X-ray yield
Keywords :
X-ray production; pinch effect; plasma density; plasma diagnostics by laser beam; 2 to 6 keV; 25 to 30 kV; X-ray yield; capacitor bank; discharge current; fast valve; gas shell profile; implosion velocity; initial gas density; laser differential interferometry; mass; minimum radius; nozzles; pinched plasma column; plasma dynamics; small gas-puff Z-pinch; supersonic nozzle; thickness;
Conference_Titel :
Plasma Science, 1990. IEEE Conference Record - Abstracts., 1990 IEEE International Conference on
Conference_Location :
Oakland, CA, USA
DOI :
10.1109/PLASMA.1990.110565
