J. Phys. IV France
Volume 133, June 2006
|Page(s)||797 - 803|
|Publié en ligne||16 juin 2006|
J.-C. Gauthier, et al.
J. Phys. IV France 133 (2006) 797-803
The mercury laser system - An average power, gas-cooled, Yb:S-FAP based system with frequency conversion and wavefront correctionC. Bibeau1, A. Bayramian1, P. Armstrong1, E. Ault1, R. Beach1, M. Benapfl1, R. Campbell1, J. Dawson1, C. Ebbers1, B. Freitas1, R. Kent1, Z. Liao1, T. Ladran1, J. Menapace1, B. Molander1, E. Moses1, S. Oberhelman1, S. Payne1, N. Peterson1, K. Schaffers1, C. Stolz1, S. Sutton1, J. Tassano1, S. Telford1, E. Utterback1, M. Randles2, B. Chai3 and Y. Fei3
1 Lawrence Livermore National Laboratory, 7000 East Ave., L-482, Livermore, CA 94550-9234, USA
2 Northrop Grumman Space Technologies, Synoptics, 1201 Continental Blvd., Charlotte, NC 28273, USA
3 Crystal Photonics, Inc 5525 Sanford Lane, Sanford, Fl 32773, USA
We report on the operation of the Mercury laser with fourteen 4 6 cm2 Yb:S-FAP amplifier slabs pumped by eight 100 kW peak power diode arrays. The system was continuously run at 55 J and 10 Hz for several hours, (2105 cumulative shots) with over 80% of the energy in a 6 times diffraction limited spot at 1.047 m. Improved optical quality was achieved in Yb:S-FAP amplifiers with magneto-rheological finishing, a deterministic polishing method. In addition, average power frequency conversion employing YCOB was demonstrated at 50% conversion efficiency or 22.6 J at 10 Hz.
© EDP Sciences 2006