Recent progress in metal-lined cylindrical as efficient x-ray sources

Feasability of efficient X-ray sources for LMJ (LaserMegaJoule) targets radiography in the multi-keV/ns regime was demonstrated on OMEGA laser facility (University of Rochester) from 2002 to 2004 [1][2][3]. We significantly enhanced the conversion efficiency of titanium, copper and germanium foils using an optimized prepulse/pulse combination [4]. Since higher X-ray energy and therefore high electronic temperature require more confinement, we built and successfully tested in 2005, plastic cylindrical hohlraums internally coated with titanium in various OMEGA beam configurations, pulse types (with and without prepulse) and target designs. The conversion efficiency (CE), depends on hohlraum length and diameter and the highest CE was measured above 17%, which is better than any other x-ray sources in this photon energy range (i.e. 4.7 keV). The best experimental setup was a 2-cone irradiation scheme without prepulse i.e. the simplest and the most economic configuration in view of radiographic purposes. These studies were carried on in february 2007 with Ge-lined hohlraums and Ti-lined halfraums. We describe and show comparisons between experimental results (time integrated and resolved x-ray imaging, pinholes and x-ray diode) with 2D hydrorad simulations.