EPJ Web of Conferences (Nov 2013)

Multi-keV x-ray sources from HYBRID targets on GEKKO and OMEGA facilities

  • Primout M.,
  • Girard F.,
  • Villette B.,
  • Stemmler Ph.,
  • Brebion D.,
  • Nishimura H.,
  • Matsuoka Y.,
  • Yamamoto N.,
  • Marrs R.,
  • Kay J.,
  • Fournier K.B.

DOI
https://doi.org/10.1051/epjconf/20135918001
Journal volume & issue
Vol. 59
p. 18001

Abstract

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The feasibility of efficient X-ray sources for radiography on the LMJ (Laser MégaJoule) in the multi-kJ/ns range was demonstrated on the OMEGA laser facility (Univ. Rochester) from 2002 to 2004 [1,2]. We significantly enhanced the conversion efficiency of titanium (4–6 keV), copper (8–10 keV) and germanium (9–13 keV) foils by using an optimized pre-pulse/pulse combination. Since higher X-ray energy and therefore electronic temperature need hydroconfinement, plastic cylindrical hohlraums internally coated with titanium, copper and germanium with various OMEGA beam configurations were successfully tested from 2005 to 2009 [3–5]. In addition, many shots with metal-doped aerogel (Ti, Fe, Ge) were tested on OMEGA [6]. Recently we tested a new concept of “HYBRID sources” based on the combination of a thin titanium foil at the exit hole of a plastic cylinder filled with very low density SiO2 aerogel (2 and 5 mg/cc). The benefit of the underdense medium is, first, to transport the laser energy to the titanium foil after its conversion into a supersonic ionization front and, second, to prevent foil expansion and excessive kinetic energy losses by longitudinal hydroconfinement.