The Laser Integration Line (LIL) is a prototype for the Laser Mégajoule (LMJ) located at CEA-CESTA. Whereas the LMJ is planned to comprise 240 laser beams and deliver 1.8MJ, the LIL delivers just one sixtieth of the energy, 30kJ.[1]
References
editBibliography
edit- Le Breton, J. P.; Alozy, E.; Boutin, J. Y.; Duval, A.; Gary, S.; Gontier, D.; Jasmin, S.; Naudy, M.; Reverdin, C.; Rosch, R.; Schmitt, S.; Soullie, G.; Stemmler, P.; Villette, B.; Wrobel, R.; Hulin, S.; Meyer, C.; Romary, P. (October 2006). "Laser Integration Line target diagnostics first results (invited)". Review of Scientific Instruments. 77 (10): 10F530–10F530–6. Bibcode:2006RScI...77jF530L. doi:10.1063/1.2349746.
Further reading
edit- Di-Nicola, J.M.; Fleurot, N.; Lonjaret, T.; Julien, X.; Bordenave, E.; Le Garrec, B.; Mangeant, M.; Behar, G.; Chies, T.; Féral, C.; Graillot, H.; Luttmann, M.; Jequier, F.; Journot, E.; Lutz, O.; Thiell, G. (2006-06-16). "The LIL facility quadruplet commissioning". J. Phys. IV France. 133 (1): 595–600. Bibcode:2006JPhy4.133..595D. doi:10.1051/jp4:2006133119.
- Hubert, S.; Dubois, J. L.; Gontier, D.; Lidove, G.; Reverdin, C.; Soullié, G.; Stemmler, P.; Villette, B. (2010). "The x-ray calibration facility of the laser integration line in the 0.9–10 keV range: The high energy x-ray source and some applications". Review of Scientific Instruments. 81 (5): 053501. Bibcode:2010RScI...81e3501H. doi:10.1063/1.3427236. PMID 20515133.