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P. 441

408 So l i d - S t at e La s e r s The National Ignition Facility Laser 409

48. Skupsky, S., Short, R. W., Kessler, T., Craxton, R. S., Letzring, S., and Soures,
J. M., “Improved Laser Beam Uniformity Using the Angular Dispersion of
Frequency-Modulated Light,” J. Appl. Phys., 66: 3456–3462, 1989.
49. Rothenberg, J. E., “Comparison of Beam-Smoothing Methods for Direct-Drive
Inertial Confinement Fusion,” J. Opt. Soc. Am. B, 14: 1664–1671, 1997.
50. Goodman, J., Chapter 2, in Laser Speckle and Related Phenomena, ed., J. C. Dainty,
New York: Springer-Verlag, 1984.
51. Powell, H. T., Dixit, S. N., and Henesian, M. A., “Beam Smoothing Capability
on the Nova Laser,” Lawrence Livermore National Laboratory (LLNL) Report,
UCRL-LR-105821-91-1: 28–38, 1990.
52. Dixit, S. N., Thomas, I. M., Woods, B. W., Morgan, A. J., Henesian, M. A.,
Wegner, P. J., and Powell, H. T., “Random Phase Plates for Beam Smoothing
on the Nova Laser,” Appl. Opt., 32: 2543–2554, 1993.
53. Dixit, S. N., Thomas, I. M., Rushford, M. R., Merrill, R., Perry, M. D., Powell,
H. T., and Nugent, K. A., “Kinoform Phase Plates for Tailoring Focal Plane
Intensity Profiles,” LLNL Report, UCRL-LR-105821-94-4: 152–159, 1994.
54. Dixit, S. N., Feit, M. D., Perry, M. D., and Powell, H. T., “Designing Fully
Continuous Phase Plates for Tailoring Focal Plane Irradiance Profiles,” Opt.
Lett., 21: 1715–1717, 1996.
55. Menapace, J. A., Dixit, S. N., Génin, F. Y., and Brocious, W. F., “Magnetorheological
Finishing for Imprinting Continuous Phase Plate Structure onto Optical
Surfaces,” Proc. SPIE, 5273: 220–230, 2003.
56. Glenzer, S. H., MacGowan, B. J., Meezan, N. B., Adams, P., Alfonso, J., Alger, E.,
Alherz, Z., et al., “Demonstration of Ignition Radiation Temperatures in
Indirect-Drive Inertial Confinement Fusion Hohlraums,” Phys. Rev. Lett.: in
press.
57. Lindl, J. D., Amendt, P., Berger, R. L., Glendinning, S. G., Glenzer, S. H., Haan,
S. W., Kaufman, R. L., et al., “The Physics Basis for Ignition Using Indirect-
Drive Targets on the National Ignition Facility,” Phys. Plasmas, 11: 339, 2004.
58. Glenzer, S. H., MacGowan, B. J., Michel, P., Meezan, N. B., Suter, L. J., Dixit,
S. N., Kline, J. L., et al., “Symmetric Inertial Confinement Fusion Implosions
at Ultra-High Laser Energies,” Science, 327: 1228, 2010.
59. Siegman, A. E., Lasers, Mill Valley, CA: University Science Books, 1986, 385–386.
60. Haynam, C. A., Sacks, R. A., Wegner, P. J., Bowers, M. W., Dixit, S. N.,
Erbert, G. V., Heestand, G. M., et al., “The National Ignition Facility 2007
Laser Performance Status,” J. Phys.: Conf. Ser., 112: 032004, 2008. Schneider,
M., “Beam Pointing Results at the National Ignition Facility,” Poster Session
1.10.044, Inertial Fusion Science and Applications Conference, San Francisco,
CA, Sept. 6–11, 2009.
61. Haan, S. W., personal communication, August 12, 2010.
62. Kuranz, C. C., Park, H.-S., Remington, B. A., Drake, R. P., Miles, A. R.,
Robey, H. F., Kilkenny, J. D., et al., “Astrophysically Relevant Radiation
Hydrodynamics Experiment at the National Ignition Facility,” Proceedings
th
of the 8 International Conference of High Energy Density Laboratory
Astrophysics, March 15–18, 2010, Pasadena, CA, 2010.

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