Abstract

An entirely reflective slit spatial filter is proposed to provide spatial filtering, gain isolation, and ASE mitigation for high-energy laser systems. The traditional circular pinhole is replaced by two orthogonal slits, which lowers the intensity at the spatial filter plane by up to two orders of magnitude, and by using reflective optics we reduce spatial dispersion and eliminate B-integral effects. A ray trace model of the spatial filter shows excellent transmitted wavefront, but also indicates aberrations at the foci from using cylindrical optics at 45°. It is expected that the use of off-axis parabolic mirrors would mitigate this issue but comes at the cost of more complicated, expensive optics and more complex alignment. We created a numerical model based on Fourier optics to explain this effect and guide design requirements to mitigate it. High-quality imaging and filtering capabilities are demonstrated experimentally.

© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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References

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  1. E. S. Bliss, D. R. Speck, J. F. Holzrichter, J. H. Erkkila, and A. J. Glass, “Propagation of a high-intensity laser pulse with small-scale intensity modulation,” Appl. Phys. Lett. 25(8), 448–450 (1974).
    [Crossref]
  2. J. T. Hunt, J. A. Glaze, W. W. Simmons, and P. A. Renard, “Suppression of self-focusing through low-pass spatial filtering and relay imaging,” Appl. Opt. 17(13), 2053–2057 (1978).
    [Crossref]
  3. J. S. Pearlman and J. P. Anthes, “Closure of pinholes under intense laser radiatoion,” Appl. Opt. 16(8), 2328–2331 (1977).
    [Crossref]
  4. P. M. Celliers, K. G. Estabrook, R. J. Wallace, J. E. Murray, L. B. Da Silva, B. J. MacGowan, B. M. Van Wonterghem, and K. R. Manes, “Spatial filter pinhole for high-energy pulsed lasers,” Appl. Opt. 37(12), 2371–2378 (1998).
    [Crossref]
  5. R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
    [Crossref]
  6. A. C. Erlandson, U.S. Patent 8,320,056 (2012).
  7. A. C. Erlandson and A. J. Bayraminan, U.S. Patent 8,902,497 (2012).
  8. A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
    [Crossref]
  9. C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
    [Crossref]
  10. N. A. Kurnit, S. A. Letzring, and R. P. Johnson, “High-damage-threshold pinhole for glass fusion laser applications,” Proc. SPIE 3492, 896–900 (1999).
    [Crossref]
  11. X. Ye, J. Huang, H. Liu, F. Geng, L. Sun, X. Jiang, W. Wu, L. Qiao, X. Zu, and W. Zheng, “Advanced Mitigation Process (AMP) for Improving Laser Damage Threshold of Fused Silica Optics,” Sci. Rep. 6(1), 31111 (2016).
    [Crossref]
  12. H. Xiong, X. Yuan, X. Zhang, and K. Zou, “Performance of a simplified slit spatial filter for large laser systems,” Opt. Express 22(18), 22211–22219 (2014).
    [Crossref]
  13. H. Xiong, F. Gao, X. Zhang, Z. Zhuang, J. Zhao, and X. Yuan, “Characteristics and performance of a two-lens slit spatial filter for high power lasers,” Opt. Commun. 390, 16–21 (2017).
    [Crossref]
  14. H. Xiong, T. Yu, F. Gao, X. Zhang, and X. Yuan, “Filtering characteristics of a three-lens slit spatial filter for high-power lasers,” Opt. Lett. 42(22), 4593–4595 (2017).
    [Crossref]
  15. USDOE, Workshop on Laser Technology for Accelerators, (2016).
  16. G. Mourou, G. Korn, W. Sandner, and J. L. Collier, ELI Whitebook (THOSS Media GmbH, 2011).
  17. R. Hammer, Basic Research Needs for High Energy Density Laboratory Physics, (2010).
  18. National Task Force on High Energy Density Physics, Frontiers for Discovery in High Energy Density Physics, (2004).
  19. P. Bucksbaum, T. Ditmire, L. DiMauro, J. Eberly, R. Freeman, M. Key, W. Leemans, D. Meyerhofer, G. Mourou, and M. Richardson, The Science and Applications of Ultrafast, Ultraintense Lasers (SAUUL), (2003).
  20. W. Leemans, Report on Workshop on: Laser Technology for k-BELLA and Beyond (LBNL, 2017).
  21. A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).
  22. R. E. English, J. L. Miller, and J. C. Schweyen, “Ghost reflection analysis for the main laser of the National Ignition Facility,” Proc. SPIE 3482, 748 (1998).
    [Crossref]
  23. N. Nakanii, T. Hosokai, K. Iwasa, N. C. Pathak, S. Masuda, A. G. Zhidkov, H. Nakahara, N. Takeguchi, Y. Mizuta, T. P. Otsuka, K. Sueda, H. Nakamura, and R. Kodama, “Effect of halo on the stability of electron bunches in laser wakefield acceleration,” EPL 113(3), 34002 (2016).
    [Crossref]

2017 (3)

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

H. Xiong, F. Gao, X. Zhang, Z. Zhuang, J. Zhao, and X. Yuan, “Characteristics and performance of a two-lens slit spatial filter for high power lasers,” Opt. Commun. 390, 16–21 (2017).
[Crossref]

H. Xiong, T. Yu, F. Gao, X. Zhang, and X. Yuan, “Filtering characteristics of a three-lens slit spatial filter for high-power lasers,” Opt. Lett. 42(22), 4593–4595 (2017).
[Crossref]

2016 (2)

N. Nakanii, T. Hosokai, K. Iwasa, N. C. Pathak, S. Masuda, A. G. Zhidkov, H. Nakahara, N. Takeguchi, Y. Mizuta, T. P. Otsuka, K. Sueda, H. Nakamura, and R. Kodama, “Effect of halo on the stability of electron bunches in laser wakefield acceleration,” EPL 113(3), 34002 (2016).
[Crossref]

X. Ye, J. Huang, H. Liu, F. Geng, L. Sun, X. Jiang, W. Wu, L. Qiao, X. Zu, and W. Zheng, “Advanced Mitigation Process (AMP) for Improving Laser Damage Threshold of Fused Silica Optics,” Sci. Rep. 6(1), 31111 (2016).
[Crossref]

2014 (1)

2011 (1)

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

1999 (2)

N. A. Kurnit, S. A. Letzring, and R. P. Johnson, “High-damage-threshold pinhole for glass fusion laser applications,” Proc. SPIE 3492, 896–900 (1999).
[Crossref]

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

1998 (2)

1978 (1)

1977 (1)

1974 (1)

E. S. Bliss, D. R. Speck, J. F. Holzrichter, J. H. Erkkila, and A. J. Glass, “Propagation of a high-intensity laser pulse with small-scale intensity modulation,” Appl. Phys. Lett. 25(8), 448–450 (1974).
[Crossref]

Aceves, S.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Alessi, D.

A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).

Anklam, T.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Anthes, J. P.

Baker, K.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Bayramian, A.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).

Bayraminan, A. J.

A. C. Erlandson and A. J. Bayraminan, U.S. Patent 8,902,497 (2012).

Betts, S.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Bikmatov, R. G.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

Bliss, E.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Bliss, E. S.

E. S. Bliss, D. R. Speck, J. F. Holzrichter, J. H. Erkkila, and A. J. Glass, “Propagation of a high-intensity laser pulse with small-scale intensity modulation,” Appl. Phys. Lett. 25(8), 448–450 (1974).
[Crossref]

Boley, C.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Boley, C. D.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

Bopp, R.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Buck, S.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Bucksbaum, P.

P. Bucksbaum, T. Ditmire, L. DiMauro, J. Eberly, R. Freeman, M. Key, W. Leemans, D. Meyerhofer, G. Mourou, and M. Richardson, The Science and Applications of Ultrafast, Ultraintense Lasers (SAUUL), (2003).

Bullington, A.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Burdonsky, I. N.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

Caird, J.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Celliers, P. M.

Chen, D.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).

Chernyak, V. M.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

Chesnut, K.

A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).

Collier, J. L.

G. Mourou, G. Korn, W. Sandner, and J. L. Collier, ELI Whitebook (THOSS Media GmbH, 2011).

Cupal, J.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Da Silva, L. B.

Deri, R.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

DiMauro, L.

P. Bucksbaum, T. Ditmire, L. DiMauro, J. Eberly, R. Freeman, M. Key, W. Leemans, D. Meyerhofer, G. Mourou, and M. Richardson, The Science and Applications of Ultrafast, Ultraintense Lasers (SAUUL), (2003).

Ditmire, T.

P. Bucksbaum, T. Ditmire, L. DiMauro, J. Eberly, R. Freeman, M. Key, W. Leemans, D. Meyerhofer, G. Mourou, and M. Richardson, The Science and Applications of Ultrafast, Ultraintense Lasers (SAUUL), (2003).

Drouin, M.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Dunne, M.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Eberly, J.

P. Bucksbaum, T. Ditmire, L. DiMauro, J. Eberly, R. Freeman, M. Key, W. Leemans, D. Meyerhofer, G. Mourou, and M. Richardson, The Science and Applications of Ultrafast, Ultraintense Lasers (SAUUL), (2003).

English, R. E.

R. E. English, J. L. Miller, and J. C. Schweyen, “Ghost reflection analysis for the main laser of the National Ignition Facility,” Proc. SPIE 3482, 748 (1998).
[Crossref]

Erkkila, J. H.

E. S. Bliss, D. R. Speck, J. F. Holzrichter, J. H. Erkkila, and A. J. Glass, “Propagation of a high-intensity laser pulse with small-scale intensity modulation,” Appl. Phys. Lett. 25(8), 448–450 (1974).
[Crossref]

Erlandson, A.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).

Erlandson, A. C.

A. C. Erlandson, U.S. Patent 8,320,056 (2012).

A. C. Erlandson and A. J. Bayraminan, U.S. Patent 8,902,497 (2012).

Estabrook, K. G.

Fedorov, A. V.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

Flowers, D.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Freeman, R.

P. Bucksbaum, T. Ditmire, L. DiMauro, J. Eberly, R. Freeman, M. Key, W. Leemans, D. Meyerhofer, G. Mourou, and M. Richardson, The Science and Applications of Ultrafast, Ultraintense Lasers (SAUUL), (2003).

Galvin, T.

A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).

Gao, F.

H. Xiong, F. Gao, X. Zhang, Z. Zhuang, J. Zhao, and X. Yuan, “Characteristics and performance of a two-lens slit spatial filter for high power lasers,” Opt. Commun. 390, 16–21 (2017).
[Crossref]

H. Xiong, T. Yu, F. Gao, X. Zhang, and X. Yuan, “Filtering characteristics of a three-lens slit spatial filter for high-power lasers,” Opt. Lett. 42(22), 4593–4595 (2017).
[Crossref]

Geng, F.

X. Ye, J. Huang, H. Liu, F. Geng, L. Sun, X. Jiang, W. Wu, L. Qiao, X. Zu, and W. Zheng, “Advanced Mitigation Process (AMP) for Improving Laser Damage Threshold of Fused Silica Optics,” Sci. Rep. 6(1), 31111 (2016).
[Crossref]

Glass, A. J.

E. S. Bliss, D. R. Speck, J. F. Holzrichter, J. H. Erkkila, and A. J. Glass, “Propagation of a high-intensity laser pulse with small-scale intensity modulation,” Appl. Phys. Lett. 25(8), 448–450 (1974).
[Crossref]

Glaze, J. A.

Goltsov, A. Y.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

Haefner, C.

A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).

Haefner, C. L.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Hammer, R.

R. Hammer, Basic Research Needs for High Energy Density Laboratory Physics, (2010).

Henesian, M.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Holzrichter, J. F.

E. S. Bliss, D. R. Speck, J. F. Holzrichter, J. H. Erkkila, and A. J. Glass, “Propagation of a high-intensity laser pulse with small-scale intensity modulation,” Appl. Phys. Lett. 25(8), 448–450 (1974).
[Crossref]

Horácek, J.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Horner, J.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Hosokai, T.

N. Nakanii, T. Hosokai, K. Iwasa, N. C. Pathak, S. Masuda, A. G. Zhidkov, H. Nakahara, N. Takeguchi, Y. Mizuta, T. P. Otsuka, K. Sueda, H. Nakamura, and R. Kodama, “Effect of halo on the stability of electron bunches in laser wakefield acceleration,” EPL 113(3), 34002 (2016).
[Crossref]

Huang, J.

X. Ye, J. Huang, H. Liu, F. Geng, L. Sun, X. Jiang, W. Wu, L. Qiao, X. Zu, and W. Zheng, “Advanced Mitigation Process (AMP) for Improving Laser Damage Threshold of Fused Silica Optics,” Sci. Rep. 6(1), 31111 (2016).
[Crossref]

Hunt, J. T.

Iwasa, K.

N. Nakanii, T. Hosokai, K. Iwasa, N. C. Pathak, S. Masuda, A. G. Zhidkov, H. Nakahara, N. Takeguchi, Y. Mizuta, T. P. Otsuka, K. Sueda, H. Nakamura, and R. Kodama, “Effect of halo on the stability of electron bunches in laser wakefield acceleration,” EPL 113(3), 34002 (2016).
[Crossref]

Jarboe, J.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Jiang, X.

X. Ye, J. Huang, H. Liu, F. Geng, L. Sun, X. Jiang, W. Wu, L. Qiao, X. Zu, and W. Zheng, “Advanced Mitigation Process (AMP) for Improving Laser Damage Threshold of Fused Silica Optics,” Sci. Rep. 6(1), 31111 (2016).
[Crossref]

Johnson, R. P.

N. A. Kurnit, S. A. Letzring, and R. P. Johnson, “High-damage-threshold pinhole for glass fusion laser applications,” Proc. SPIE 3492, 896–900 (1999).
[Crossref]

Kasl, K.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Key, M.

P. Bucksbaum, T. Ditmire, L. DiMauro, J. Eberly, R. Freeman, M. Key, W. Leemans, D. Meyerhofer, G. Mourou, and M. Richardson, The Science and Applications of Ultrafast, Ultraintense Lasers (SAUUL), (2003).

Kim, D.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Kodama, R.

N. Nakanii, T. Hosokai, K. Iwasa, N. C. Pathak, S. Masuda, A. G. Zhidkov, H. Nakahara, N. Takeguchi, Y. Mizuta, T. P. Otsuka, K. Sueda, H. Nakamura, and R. Kodama, “Effect of halo on the stability of electron bunches in laser wakefield acceleration,” EPL 113(3), 34002 (2016).
[Crossref]

Koh, E.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Kondrashov, V. N.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

Koptyaev, S. N.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

Korn, G.

G. Mourou, G. Korn, W. Sandner, and J. L. Collier, ELI Whitebook (THOSS Media GmbH, 2011).

Koubíková, L.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Kovalsky, N. G.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

Kurnit, N. A.

N. A. Kurnit, S. A. Letzring, and R. P. Johnson, “High-damage-threshold pinhole for glass fusion laser applications,” Proc. SPIE 3492, 896–900 (1999).
[Crossref]

Kuznetsov, V. N.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

Latkowski, J.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Leemans, W.

P. Bucksbaum, T. Ditmire, L. DiMauro, J. Eberly, R. Freeman, M. Key, W. Leemans, D. Meyerhofer, G. Mourou, and M. Richardson, The Science and Applications of Ultrafast, Ultraintense Lasers (SAUUL), (2003).

W. Leemans, Report on Workshop on: Laser Technology for k-BELLA and Beyond (LBNL, 2017).

Letzring, S. A.

N. A. Kurnit, S. A. Letzring, and R. P. Johnson, “High-damage-threshold pinhole for glass fusion laser applications,” Proc. SPIE 3492, 896–900 (1999).
[Crossref]

Liu, H.

X. Ye, J. Huang, H. Liu, F. Geng, L. Sun, X. Jiang, W. Wu, L. Qiao, X. Zu, and W. Zheng, “Advanced Mitigation Process (AMP) for Improving Laser Damage Threshold of Fused Silica Optics,” Sci. Rep. 6(1), 31111 (2016).
[Crossref]

MacGowan, B. J.

Manes, K.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Manes, K. R.

Maranville, W.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Marshall, C.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Mason, D.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).

Masuda, S.

N. Nakanii, T. Hosokai, K. Iwasa, N. C. Pathak, S. Masuda, A. G. Zhidkov, H. Nakahara, N. Takeguchi, Y. Mizuta, T. P. Otsuka, K. Sueda, H. Nakamura, and R. Kodama, “Effect of halo on the stability of electron bunches in laser wakefield acceleration,” EPL 113(3), 34002 (2016).
[Crossref]

Mazurek, P.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Menapace, J.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Meyerhofer, D.

P. Bucksbaum, T. Ditmire, L. DiMauro, J. Eberly, R. Freeman, M. Key, W. Leemans, D. Meyerhofer, G. Mourou, and M. Richardson, The Science and Applications of Ultrafast, Ultraintense Lasers (SAUUL), (2003).

Milam, D.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

Miller, J. L.

R. E. English, J. L. Miller, and J. C. Schweyen, “Ghost reflection analysis for the main laser of the National Ignition Facility,” Proc. SPIE 3482, 748 (1998).
[Crossref]

Miller, P.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Mizuta, Y.

N. Nakanii, T. Hosokai, K. Iwasa, N. C. Pathak, S. Masuda, A. G. Zhidkov, H. Nakahara, N. Takeguchi, Y. Mizuta, T. P. Otsuka, K. Sueda, H. Nakamura, and R. Kodama, “Effect of halo on the stability of electron bunches in laser wakefield acceleration,” EPL 113(3), 34002 (2016).
[Crossref]

Molander, W.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Moses, E.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Mourou, G.

P. Bucksbaum, T. Ditmire, L. DiMauro, J. Eberly, R. Freeman, M. Key, W. Leemans, D. Meyerhofer, G. Mourou, and M. Richardson, The Science and Applications of Ultrafast, Ultraintense Lasers (SAUUL), (2003).

G. Mourou, G. Korn, W. Sandner, and J. L. Collier, ELI Whitebook (THOSS Media GmbH, 2011).

Murray, J. E.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

P. M. Celliers, K. G. Estabrook, R. J. Wallace, J. E. Murray, L. B. Da Silva, B. J. MacGowan, B. M. Van Wonterghem, and K. R. Manes, “Spatial filter pinhole for high-energy pulsed lasers,” Appl. Opt. 37(12), 2371–2378 (1998).
[Crossref]

Nakahara, H.

N. Nakanii, T. Hosokai, K. Iwasa, N. C. Pathak, S. Masuda, A. G. Zhidkov, H. Nakahara, N. Takeguchi, Y. Mizuta, T. P. Otsuka, K. Sueda, H. Nakamura, and R. Kodama, “Effect of halo on the stability of electron bunches in laser wakefield acceleration,” EPL 113(3), 34002 (2016).
[Crossref]

Nakamura, H.

N. Nakanii, T. Hosokai, K. Iwasa, N. C. Pathak, S. Masuda, A. G. Zhidkov, H. Nakahara, N. Takeguchi, Y. Mizuta, T. P. Otsuka, K. Sueda, H. Nakamura, and R. Kodama, “Effect of halo on the stability of electron bunches in laser wakefield acceleration,” EPL 113(3), 34002 (2016).
[Crossref]

Nakanii, N.

N. Nakanii, T. Hosokai, K. Iwasa, N. C. Pathak, S. Masuda, A. G. Zhidkov, H. Nakahara, N. Takeguchi, Y. Mizuta, T. P. Otsuka, K. Sueda, H. Nakamura, and R. Kodama, “Effect of halo on the stability of electron bunches in laser wakefield acceleration,” EPL 113(3), 34002 (2016).
[Crossref]

Naylon, A.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Nguyen, H.

A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).

Novák, J.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Otsuka, T. P.

N. Nakanii, T. Hosokai, K. Iwasa, N. C. Pathak, S. Masuda, A. G. Zhidkov, H. Nakahara, N. Takeguchi, Y. Mizuta, T. P. Otsuka, K. Sueda, H. Nakamura, and R. Kodama, “Effect of halo on the stability of electron bunches in laser wakefield acceleration,” EPL 113(3), 34002 (2016).
[Crossref]

Pathak, N. C.

N. Nakanii, T. Hosokai, K. Iwasa, N. C. Pathak, S. Masuda, A. G. Zhidkov, H. Nakahara, N. Takeguchi, Y. Mizuta, T. P. Otsuka, K. Sueda, H. Nakamura, and R. Kodama, “Effect of halo on the stability of electron bunches in laser wakefield acceleration,” EPL 113(3), 34002 (2016).
[Crossref]

Pearlman, J. S.

Peceli, D.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Pergament, M. I.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

Petryakov, V. M.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

Piggott, T.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Powers, S.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Qiao, L.

X. Ye, J. Huang, H. Liu, F. Geng, L. Sun, X. Jiang, W. Wu, L. Qiao, X. Zu, and W. Zheng, “Advanced Mitigation Process (AMP) for Improving Laser Damage Threshold of Fused Silica Optics,” Sci. Rep. 6(1), 31111 (2016).
[Crossref]

Rana, S.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Rehak, M.

A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).

Renard, P. A.

Richardson, M.

P. Bucksbaum, T. Ditmire, L. DiMauro, J. Eberly, R. Freeman, M. Key, W. Leemans, D. Meyerhofer, G. Mourou, and M. Richardson, The Science and Applications of Ultrafast, Ultraintense Lasers (SAUUL), (2003).

Rodriguez, S.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Rosso, P.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).

Sandner, W.

G. Mourou, G. Korn, W. Sandner, and J. L. Collier, ELI Whitebook (THOSS Media GmbH, 2011).

Sawicki, R.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Schaffers, K.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).

Schweyen, J. C.

R. E. English, J. L. Miller, and J. C. Schweyen, “Ghost reflection analysis for the main laser of the National Ignition Facility,” Proc. SPIE 3482, 748 (1998).
[Crossref]

Seppala, L.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Siders, C.

A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).

Simmons, W. W.

Sistrunk, E.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).

Smirnov, R. V.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

Smith, D.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Sokolov, V. I.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

Spaeth, M.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Speck, D. R.

E. S. Bliss, D. R. Speck, J. F. Holzrichter, J. H. Erkkila, and A. J. Glass, “Propagation of a high-intensity laser pulse with small-scale intensity modulation,” Appl. Phys. Lett. 25(8), 448–450 (1974).
[Crossref]

Spinka, T.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).

Stanley, J.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Steele, R.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Stolz, C.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Sueda, K.

N. Nakanii, T. Hosokai, K. Iwasa, N. C. Pathak, S. Masuda, A. G. Zhidkov, H. Nakahara, N. Takeguchi, Y. Mizuta, T. P. Otsuka, K. Sueda, H. Nakamura, and R. Kodama, “Effect of halo on the stability of electron bunches in laser wakefield acceleration,” EPL 113(3), 34002 (2016).
[Crossref]

Sun, L.

X. Ye, J. Huang, H. Liu, F. Geng, L. Sun, X. Jiang, W. Wu, L. Qiao, X. Zu, and W. Zheng, “Advanced Mitigation Process (AMP) for Improving Laser Damage Threshold of Fused Silica Optics,” Sci. Rep. 6(1), 31111 (2016).
[Crossref]

Suratwala, T.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Sutton, S.

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Takeguchi, N.

N. Nakanii, T. Hosokai, K. Iwasa, N. C. Pathak, S. Masuda, A. G. Zhidkov, H. Nakahara, N. Takeguchi, Y. Mizuta, T. P. Otsuka, K. Sueda, H. Nakamura, and R. Kodama, “Effect of halo on the stability of electron bunches in laser wakefield acceleration,” EPL 113(3), 34002 (2016).
[Crossref]

Telford, S.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Thoma, J.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Van Wonterghem, B. M.

VanBlarcom, D.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Wallace, R. J.

Wegner, P.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Weiss, J.

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

Wu, W.

X. Ye, J. Huang, H. Liu, F. Geng, L. Sun, X. Jiang, W. Wu, L. Qiao, X. Zu, and W. Zheng, “Advanced Mitigation Process (AMP) for Improving Laser Damage Threshold of Fused Silica Optics,” Sci. Rep. 6(1), 31111 (2016).
[Crossref]

Xiong, H.

Ye, X.

X. Ye, J. Huang, H. Liu, F. Geng, L. Sun, X. Jiang, W. Wu, L. Qiao, X. Zu, and W. Zheng, “Advanced Mitigation Process (AMP) for Improving Laser Damage Threshold of Fused Silica Optics,” Sci. Rep. 6(1), 31111 (2016).
[Crossref]

Yu, T.

Yuan, X.

Zhang, X.

Zhao, J.

H. Xiong, F. Gao, X. Zhang, Z. Zhuang, J. Zhao, and X. Yuan, “Characteristics and performance of a two-lens slit spatial filter for high power lasers,” Opt. Commun. 390, 16–21 (2017).
[Crossref]

Zheng, W.

X. Ye, J. Huang, H. Liu, F. Geng, L. Sun, X. Jiang, W. Wu, L. Qiao, X. Zu, and W. Zheng, “Advanced Mitigation Process (AMP) for Improving Laser Damage Threshold of Fused Silica Optics,” Sci. Rep. 6(1), 31111 (2016).
[Crossref]

Zhidkov, A. G.

N. Nakanii, T. Hosokai, K. Iwasa, N. C. Pathak, S. Masuda, A. G. Zhidkov, H. Nakahara, N. Takeguchi, Y. Mizuta, T. P. Otsuka, K. Sueda, H. Nakamura, and R. Kodama, “Effect of halo on the stability of electron bunches in laser wakefield acceleration,” EPL 113(3), 34002 (2016).
[Crossref]

Zhuang, Z.

H. Xiong, F. Gao, X. Zhang, Z. Zhuang, J. Zhao, and X. Yuan, “Characteristics and performance of a two-lens slit spatial filter for high power lasers,” Opt. Commun. 390, 16–21 (2017).
[Crossref]

Zhuzhukalo, E. V.

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

Zou, K.

Zu, X.

X. Ye, J. Huang, H. Liu, F. Geng, L. Sun, X. Jiang, W. Wu, L. Qiao, X. Zu, and W. Zheng, “Advanced Mitigation Process (AMP) for Improving Laser Damage Threshold of Fused Silica Optics,” Sci. Rep. 6(1), 31111 (2016).
[Crossref]

Appl. Opt. (3)

Appl. Phys. Lett. (1)

E. S. Bliss, D. R. Speck, J. F. Holzrichter, J. H. Erkkila, and A. J. Glass, “Propagation of a high-intensity laser pulse with small-scale intensity modulation,” Appl. Phys. Lett. 25(8), 448–450 (1974).
[Crossref]

EPL (1)

N. Nakanii, T. Hosokai, K. Iwasa, N. C. Pathak, S. Masuda, A. G. Zhidkov, H. Nakahara, N. Takeguchi, Y. Mizuta, T. P. Otsuka, K. Sueda, H. Nakamura, and R. Kodama, “Effect of halo on the stability of electron bunches in laser wakefield acceleration,” EPL 113(3), 34002 (2016).
[Crossref]

Fusion Sci. Technol. (1)

A. Bayramian, S. Aceves, T. Anklam, K. Baker, E. Bliss, C. Boley, A. Bullington, J. Caird, D. Chen, R. Deri, M. Dunne, A. Erlandson, D. Flowers, M. Henesian, J. Latkowski, K. Manes, W. Molander, E. Moses, T. Piggott, S. Powers, S. Rana, S. Rodriguez, R. Sawicki, K. Schaffers, L. Seppala, M. Spaeth, S. Sutton, and S. Telford, “Compact, Efficient Laser Systems Required for Laser Inertial Fusion Energy,” Fusion Sci. Technol. 60(1), 28–48 (2011).
[Crossref]

Opt. Commun. (1)

H. Xiong, F. Gao, X. Zhang, Z. Zhuang, J. Zhao, and X. Yuan, “Characteristics and performance of a two-lens slit spatial filter for high power lasers,” Opt. Commun. 390, 16–21 (2017).
[Crossref]

Opt. Express (1)

Opt. Lett. (1)

Proc. SPIE (4)

C. L. Haefner, A. Bayramian, S. Betts, R. Bopp, S. Buck, J. Cupal, M. Drouin, A. Erlandson, J. Horáček, J. Horner, J. Jarboe, K. Kasl, D. Kim, E. Koh, L. Koubíková, W. Maranville, C. Marshall, D. Mason, J. Menapace, P. Miller, P. Mazurek, A. Naylon, J. Novák, D. Peceli, P. Rosso, K. Schaffers, E. Sistrunk, D. Smith, T. Spinka, J. Stanley, R. Steele, C. Stolz, T. Suratwala, S. Telford, J. Thoma, D. VanBlarcom, J. Weiss, and P. Wegner, “High average power, diode pumped petawatt laser systems: a new generation of lasers enabling precision science and commercial applications,” Proc. SPIE 10241, 1024102 (2017).
[Crossref]

N. A. Kurnit, S. A. Letzring, and R. P. Johnson, “High-damage-threshold pinhole for glass fusion laser applications,” Proc. SPIE 3492, 896–900 (1999).
[Crossref]

R. G. Bikmatov, C. D. Boley, I. N. Burdonsky, V. M. Chernyak, A. V. Fedorov, A. Y. Goltsov, V. N. Kondrashov, S. N. Koptyaev, N. G. Kovalsky, V. N. Kuznetsov, D. Milam, J. E. Murray, M. I. Pergament, V. M. Petryakov, R. V. Smirnov, V. I. Sokolov, and E. V. Zhuzhukalo, “Pinhole closure in spatial filters of large-scale ICF laser systems,” Proc. SPIE 3492, 510–523 (1999).
[Crossref]

R. E. English, J. L. Miller, and J. C. Schweyen, “Ghost reflection analysis for the main laser of the National Ignition Facility,” Proc. SPIE 3482, 748 (1998).
[Crossref]

Sci. Rep. (1)

X. Ye, J. Huang, H. Liu, F. Geng, L. Sun, X. Jiang, W. Wu, L. Qiao, X. Zu, and W. Zheng, “Advanced Mitigation Process (AMP) for Improving Laser Damage Threshold of Fused Silica Optics,” Sci. Rep. 6(1), 31111 (2016).
[Crossref]

Other (9)

A. C. Erlandson, U.S. Patent 8,320,056 (2012).

A. C. Erlandson and A. J. Bayraminan, U.S. Patent 8,902,497 (2012).

USDOE, Workshop on Laser Technology for Accelerators, (2016).

G. Mourou, G. Korn, W. Sandner, and J. L. Collier, ELI Whitebook (THOSS Media GmbH, 2011).

R. Hammer, Basic Research Needs for High Energy Density Laboratory Physics, (2010).

National Task Force on High Energy Density Physics, Frontiers for Discovery in High Energy Density Physics, (2004).

P. Bucksbaum, T. Ditmire, L. DiMauro, J. Eberly, R. Freeman, M. Key, W. Leemans, D. Meyerhofer, G. Mourou, and M. Richardson, The Science and Applications of Ultrafast, Ultraintense Lasers (SAUUL), (2003).

W. Leemans, Report on Workshop on: Laser Technology for k-BELLA and Beyond (LBNL, 2017).

A. Bayramian, D. Alessi, D. Chen, K. Chesnut, A. Erlandson, T. Galvin, D. Mason, H. Nguyen, M. Rehak, P. Rosso, K. Schaffers, C. Siders, E. Sistrunk, T. Spinka, and C. Haefner, “Scaling high intensity laser systems from state-of-the-art to MW-class, enabling next generation light sources,” High-brightness Sources and Light-driven Interactions Congress, HT1A.4 (2018).

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Figures (7)

Fig. 1.
Fig. 1. Diagram of the cylindrical lens spatial filter patented by Erlandson. Here, f1 is the focal length of the first cylindrical telescope producing a horizontal line focus, f2 is the focal length of the second cylindrical telescope producing a vertical line focus, and g is the slit spacing set by the offset of the two telescopes [6,7].
Fig. 2.
Fig. 2. Conceptual layout of an entirely reflective slit spatial filter, implemented by replacing the cylindrical lenses in Fig. 1 with highly reflective cylindrical mirrors.
Fig. 3.
Fig. 3. Zemax simulation of a f/22 entirely reflective slit spatial filter with a Gaussian beam input a) 2-D plot of coherent irradiance at the horizontal line focus b) cross-section taken at x = 0 of log scale coherent irradiance at horizontal line focus c) wavefront of beam at the output image plane.
Fig. 4.
Fig. 4. Coordinate system and geometry used for Fourier optic analysis.
Fig. 5.
Fig. 5. Spatial distribution of beam irradiance at the focal plane of the cylindrical mirror, x-axis is transverse to the direction of propagation, for different f-numbers by varying the input beam diameter. Curves are normalized to total energy and percent energy found in the fringes for each f-number is included in the legend.
Fig. 6.
Fig. 6. (a) Non-filtered USAF 1951 resolution test target with (b) corresponding 2D FFT. (c) Filtered USAF 1951 resolution test target with (d) corresponding 2D FFT. The spatial frequencies in (b) and (d) are normalized to the cutoff frequency determined by the laser wavelength and cylindrical telescope f-number.
Fig. 7.
Fig. 7. Vertical and horizontal line foci of the experimental demonstration with the numerical simulation overlaid. (a) Vertical line focus for f/22 setup (b) Horizontal line focus for f/22 setup (c) Vertical line focus for f/31 setup (d) Horizontal line focus of f/31 setup.

Tables (1)

Tables Icon

Table 1. Experimental far-field intensity distribution characteristics of the two f-number cases.

Equations (5)

Equations on this page are rendered with MathJax. Learn more.

E(x,z)=E0exp(x22w2)exp(ikzz).
z=R2(xR2)2R2,
z=x2x2R+2x3R2.
E(x,z=0)=E0exp(x22w2)exp[ikz(2x2R+2x3R2)].
E(x,z=f)=FFT1{FFT[E(x,z=0)]exp(ikzf)}.

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