Title :
Foil acceleration of double layer target by intense, pulsed, ion-beam ablation
Author :
Kashine, K. ; Yazawa, M. ; Harada, N. ; Jiang, W. ; Yatsui, K.
Author_Institution :
Extreme Energy-Density Res. Inst., Nagaoka Univ. of Technol., Niigata, Japan
Abstract :
High density ablation plasma produced by intense, pulsed, ion beam has been used to accelerate a thin foil target. Pulsed proton beam with energy density of 120 J/cm/sup 2/, which was obtained by a magnetically insulated diode, was irradiated on a double-layer aluminum target coated by a thin film of gold. The foil velocity was measured by a time-of-flight method. The maximum foil velocity of 2.1 km/s was obtained. The acceleration pressure estimated by the target velocity was found to be 0.44 GPa. The target velocity was increased with increasing the thickness of gold. Using a simple MHD model, we considered the behavior of the foil accelerated. From the comparison of the experimental data with that simulated, a considerable agreement was obtained between them. With the velocity data, we obtained the energy transfer efficiency of the flyer to be 17.5%.
Keywords :
acceleration; aluminium; ion beam effects; metallic thin films; plasma magnetohydrodynamics; plasma materials processing; plasma production; 0.44 GPa; 2.1 km/s; MHD model; acceleration pressure; double layer target; double-layer aluminum target; energy density; energy transfer efficiency; flyer; foil acceleration; foil velocity; gold thin film coating; gold. thickness; high density ablation plasma; intense pulsed ion-beam ablation; magnetically insulated diode; simulation; target velocity; thin foil target acceleration; time-of-flight method; velocity; Acceleration; Aluminum; Diodes; Gold; Insulation; Ion beams; Magnetic films; Particle beams; Plasma accelerators; Plasma density;
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.2001.1001814
