OMEGA Upgrade laser for direct-drive target experiments

J.M. Soures; R.L. McCrory; T.R. Boehly; R.S. Craxton; S.D. Jacobs; J.H. Kelly; T.J. Kessler; J.P. Knauer; R.L. Kremens; S.A. Kumpan; S.A. Letzring; W.D. Seka; R.W. Short; M.D. Skeldon; S. Skupsky; C.P. Verdon

doi:10.1017/S0263034600004912

Abstract

Validation of the direct-drive approach to inertial confinement fusion requires the development of a 351-nm wavelength, 30-kJ, 50-TW laser system with flexible pulse shaping and irradiation uniformity approaching 1%. An upgrade of the existing OMEGA direct-drive facility at Rochester is planned to meet these objectives. In this article, we review the design rationale and specifications of the OMEGA Upgrade laser with particular emphasis on techniques planned to achieve the required degree of beam smoothing, temporal pulse shape, and beam-to-beam power balance.

References

REFERENCES

Bodner, S.E. 1981 J. Fusion Energy 1, 221.CrossRef Google Scholar

Craxton, R.S., ed. 1989 Laboratory for Laser Energetics, University of Rochester Report DOE/DP 40200–101.Google Scholar

Jaanimagi, P.A. et al. Bull. Am. Phys. Soc. 34, 2041.Google Scholar

Keck, R.L. et al. 1989 Bull. Am. Phys. Soc. 34, 2041.Google Scholar

Marshall, F.J. et al. 1989 Phys. Rev. A 40, 2547.CrossRef Google Scholar

McCrory, R.L. & Verdon, C.P. 1989 In Inertial Confinement Fusion, Caruso, A. & Sindoni, E., eds. (Editrice Compositori, Bologna), p. 83.Google Scholar

McCrory, R.L. et al. 1988 Nature 335, 225.CrossRef Google Scholar

McCrory, R.L. et al. 1991 In Proceedings of the IAEA Technical Committee Meeting on Drivers for Inertial Confinement Fusion, (Osaka, Japan, 15–19 April) p. 135.Google Scholar

McKenty, P.W. et al. 1989. Bull. Am. Phys. Soc. 34, 2041.Google Scholar

Skupsky, S. & Kessler, T. 1989 Optic Comm. 70, 123.CrossRef Google Scholar

Skupsky, S. et al. 1989 J. Appl. Phys. 66, 3356.CrossRef Google Scholar

Soures, J.M. et al. 1983 In Proceedings of the 10th Symposium on Fusion Engineering (IEEE, New York), p. 1392.Google Scholar

Soures, J.M. et al. 1989 Bull. Am. Phys. Soc. 34, 2041.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Sluyter, M.M. 1992. The US Inertial Confinement Fusion Program recent results and future plans. p. 626.

Pollaine, S.M and Eimerl, D 1998. Modal analysis of power imbalance and pointing errors for direct drive and tetrahedral hohlraums. Nuclear Fusion, Vol. 38, Issue. 10, p. 1523.

Murakami, Masakatsu 1999. Design of a conic irradiation system for laser fusion. Fusion Engineering and Design, Vol. 44, Issue. 1-4, p. 111.

Ross, J. S. Froula, D. H. Mackinnon, A. J. Sorce, C. Meezan, N. Glenzer, S. H. Armstrong, W. Bahr, R. Huff, R. and Thorp, K. 2006. Implementation of imaging Thomson scattering on the Omega Laser. Review of Scientific Instruments, Vol. 77, Issue. 10,

Froula, D. H. Rekow, V. Sorce, C. Piston, K. Knight, R. Alvarez, S. Griffith, R. Hargrove, D. Ross, J. S. Dixit, S. Pollock, B. Divol, L. Glenzer, S. H. Armstrong, W. Bahr, R. Thorp, K. and Pien, G. 2006. 3 ω transmitted beam diagnostic at the Omega Laser Facility. Review of Scientific Instruments, Vol. 77, Issue. 10,

Froula, D. H. Ross, J. S. Divol, L. Meezan, N. MacKinnon, A. J. Wallace, R. and Glenzer, S. H. 2006. Thomson-scattering measurements of high electron temperature hohlraum plasmas for laser-plasma interaction studies. Physics of Plasmas, Vol. 13, Issue. 5,

Froula, D. H. Divol, L. Meezan, N. B. Dixit, S. Neumayer, P. Moody, J. D. Pollock, B. B. Ross, J. S. Suter, L. and Glenzer, S. H. 2007. Laser beam propagation through inertial confinement fusion hohlraum plasmas. Physics of Plasmas, Vol. 14, Issue. 5,

Froula, D. H. Divol, L. Meezan, N. B. Dixit, S. Moody, J. D. Neumayer, P. Pollock, B. B. Ross, J. S. and Glenzer, S. H. 2007. Ideal Laser-Beam Propagation through High-Temperature Ignition Hohlraum Plasmas. Physical Review Letters, Vol. 98, Issue. 8,

Glenzer, Siegfried H. and Redmer, Ronald 2009. X-ray Thomson scattering in high energy density plasmas. Reviews of Modern Physics, Vol. 81, Issue. 4, p. 1625.

Dewald, E. L. Milovich, J. Thomas, C. Kline, J. Sorce, C. Glenn, S. and Landen, O. L. 2011. Experimental demonstration of early time, hohlraum radiation symmetry tuning for indirect drive ignition experiments. Physics of Plasmas, Vol. 18, Issue. 9,

Dewald, E. L. Milovich, J. L. Michel, P. Landen, O. L. Kline, J. L. Glenn, S. Jones, O. Kalantar, D. H. Pak, A. Robey, H. F. Kyrala, G. A. Divol, L. Benedetti, L. R. Holder, J. Widmann, K. Moore, A. Schneider, M. B. Döppner, T. Tommasini, R. Bradley, D. K. Bell, P. Ehrlich, B. Thomas, C. A. Shaw, M. Widmayer, C. Callahan, D. A. Meezan, N. B. Town, R. P. J. Hamza, A. Dzenitis, B. Nikroo, A. Moreno, K. Van Wonterghem, B. Mackinnon, A. J. Glenzer, S. H. MacGowan, B. J. Kilkenny, J. D. Edwards, M. J. Atherton, L. J. and Moses, E. I. 2013. Early-Time Symmetry Tuning in the Presence of Cross-Beam Energy Transfer in ICF Experiments on the National Ignition Facility. Physical Review Letters, Vol. 111, Issue. 23,

Moody, J. D. Callahan, D. A. Hinkel, D. E. Amendt, P. A. Baker, K. L. Bradley, D. Celliers, P. M. Dewald, E. L. Divol, L. Döppner, T. Eder, D. C. Edwards, M. J. Jones, O. Haan, S. W. Ho, D. Hopkins, L. B. Izumi, N. Kalantar, D. Kauffman, R. L. Kilkenny, J. D. Landen, O. Lasinski, B. LePape, S. Ma, T. MacGowan, B. J. MacLaren, S. A. Mackinnon, A. J. Meeker, D. Meezan, N. Michel, P. Milovich, J. L. Munro, D. Pak, A. E. Rosen, M. Ralph, J. Robey, H. F. Ross, J. S. Schneider, M. B. Strozzi, D. Storm, E. Thomas, C. Town, R. P. J. Widmann, K. L. Kline, J. Kyrala, G. Nikroo, A. Boehly, T. Moore, A. S. and Glenzer, S. H. 2014. Progress in hohlraum physics for the National Ignition Facility. Physics of Plasmas, Vol. 21, Issue. 5,

Ye, Yingting Yang, Li Yang, Tianle Nie, Jinlan Peng, Shuming Long, Xinggui Zu, Xiaotao and Du, Jincheng 2015. Ab initio study of structural and mechanical property of solid molecular hydrogens. The European Physical Journal B, Vol. 88, Issue. 6,

Sun, Qingqiang Ye, Yingting Yang, Tianle Yang, Li Peng, Shuming Long, Xinggui Zhou, Xiaosong Zu, Xiaotao and Du, Jincheng 2015. Ab initio study of intrinsic defects and diffusion behaviors in solid molecular hydrogens. The European Physical Journal B, Vol. 88, Issue. 12,

Montgomery, D. S. Albright, B. J. Barnak, D. H. Chang, P. Y. Davies, J. R. Fiksel, G. Froula, D. H. Kline, J. L. MacDonald, M. J. Sefkow, A. B. Yin, L. and Betti, R. 2015. Use of external magnetic fields in hohlraum plasmas to improve laser-coupling. Physics of Plasmas, Vol. 22, Issue. 1,

Moses, E. I. Lindl, J. D. Spaeth, M. L. Patterson, R. W. Sawicki, R. H. Atherton, L. J. Baisden, P. A. Lagin, L. J. Larson, D. W. MacGowan, B. J. Miller, G. H. Rardin, D. C. Roberts, V. S. Wonterghem, B. M. Van and Wegner, P. J. 2016. Overview: Development of the National Ignition Facility and the Transition to a User Facility for the Ignition Campaign and High Energy Density Scientific Research. Fusion Science and Technology, Vol. 69, Issue. 1, p. 1.

Kemp, G. E. Colvin, J. D. Blue, B. E. and Fournier, K. B. 2016. Simulation study of enhancing laser driven multi-keV line-radiation through application of external magnetic fields. Physics of Plasmas, Vol. 23, Issue. 10,

Goyon, C. Pollock, B. B. Turnbull, D. P. Hazi, A. Divol, L. Farmer, W. A. Haberberger, D. Javedani, J. Johnson, A. J. Kemp, A. Levy, M. C. Grant Logan, B. Mariscal, D. A. Landen, O. L. Patankar, S. Ross, J. S. Rubenchik, A. M. Swadling, G. F. Williams, G. J. Fujioka, S. Law, K. F. F. and Moody, J. D. 2017. Ultrafast probing of magnetic field growth inside a laser-driven solenoid. Physical Review E, Vol. 95, Issue. 3,

Kemp, G. E. Rubery, M. S. Harris, C. D. May, M. J. Widmann, K. Heeter, R. F. Libby, S. B. Schneider, M. B. and Blue, B. E. 2020. A genetic algorithm approach for reconstructing spectral content from filtered x-ray diode array spectrometers. Review of Scientific Instruments, Vol. 91, Issue. 8,

Sio, H. Moody, J. D. Pollock, B. B. Strozzi, D. J. Ho, D. D.-M. Walsh, C. A. Kemp, G. E. Lahmann, B. Kucheyev, S. O. Kozioziemski, B. Carroll, E. G. Kroll, J. Yanagisawa, D. K. Angus, J. Bachmann, B. Baker, A. A. Bayu Aji, L. B. Bhandarkar, S. D. Bude, J. D. Divol, L. Engwall, A. M. Ferguson, B. Fry, J. Hagler, L. Hartouni, E. Herrmann, M. C. Hsing, W. Holunga, D. M. Javedani, J. Johnson, A. Khan, S. Kalantar, D. Kohut, T. Logan, B. G. Masters, N. Nikroo, A. Izumi, N. Orsi, N. Piston, K. Provencher, C. Rowe, A. Sater, J. Shin, S. J. Skulina, K. Stygar, W. A. Tang, V. Winters, S. E. Zimmerman, G. Chittenden, J. P. Appelbe, B. Boxall, A. Crilly, A. O'Neill, S. Barnak, D. Davies, J. Peebles, J. Bae, J. H. Clark, K. Havre, M. Mauldin, M. Ratledge, M. Vonhof, S. Adrian, P. Reichelt, B. Fujioka, S. and Fraenkel, M. 2023. Performance scaling with an applied magnetic field in indirect-drive inertial confinement fusion implosions. Physics of Plasmas, Vol. 30, Issue. 7,

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OMEGA Upgrade laser for direct-drive target experiments

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

OMEGA Upgrade laser for direct-drive target experiments

Abstract

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References

REFERENCES

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