Title :
Neon Z-pinch experiments on hawk to optimize K-shell radiation from 300 ns implosions
Author :
Murphy, D.P. ; Hinshelwood, D.D. ; Commisso, R.J. ; Mosher, D. ; Phipps, D.G. ; Ponce, D.M. ; Stephanakis, S.J. ; Weber, B.V. ; Young, F.C. ; Qi, N.
Author_Institution :
Naval Res. Lab., Washington, DC, USA
Abstract :
One of the objectives of the Plasma Radiation Source research program on the Decade Quad machine (6 MA, 300 ns implosion time) program is to optimize the K-shell yield for large-radius, long-implosion-time argon gas-puff Z-pinches. The NRL HAWK generator (0.6 MA, 300 ns implosion time) driving a neon gas puff is a convenient test bed to study yield dependence on density profile, implosion time, return current symmetry, etc.. Neon on Hawk is energetically equivalent to argon on Decade Quad [1]. The HAWK neon experiments employ the Titan 1234 double-shell gas-puff valve and nozzle [2] used in higher-Current argon experiments [3]. Here, we report on experiments to determine dependence of K-shell yield on gas-puff density profile by varying the inner and outer plenum pressures over a wide range.
Keywords :
Z pinch; explosions; neon; plasma X-ray sources; plasma density; plasma production; Decade Quad machine; K-shell radiation optimisation; K-shell yield optimisation; NRL HAWK generator; Ne; Plasma Radiation Source research program; current 0.6 MA; density profile; double shell gas puff nozzle; double shell gas puff valve; implosion time; implosions; neon Z-pinch experiments; neon gas puff; return current symmetry; time 300 ns; Pediatrics; Voltmeters;
Conference_Titel :
High-Power Particle Beams (BEAMS 2004), 2004 International Conference on
Conference_Location :
St. Petersburg
Print_ISBN :
978-5-87911-088-3
