Abstract

We experimentally investigated the laser damage growth behavior of multilayer dielectric gratings (MLDGs) by the picosecond pulses at 1053nm. The damage growth threshold of 2.43J/cm2 is significantly lower than the 20/1 damage threshold of 3.06 J/cm2. Once the damage site is initiated, the damage area grows linearly with shot number and saturates after sufficient shots due to the Gaussian spot. The barycenter of the growing damage site deviates from the laser spot center and their distance increases with the shot number, which indicates the asymmetry of the damage growth along the laser propagation axis. The growth rate of the damage site along the laser propagation direction is larger than that in the reverse direction by a factor of ~1.8 for various fluences. The comparison of the experimental and numerical results reveals that the asymmetrical intensity modulation induced by the damage sites causes the asymmetry in growth. The revealed characteristics and mechanisms of the damage growth can be of great significance to predict the lifetime of the MLDGs in high-power laser systems.

© 2018 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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2017 (3)

Y. Hao, M. Sun, S. Shi, X. Pan, Z. Zhu, X. Pang, and J. Zhu, “Comparison between intrinsic and contaminant-induced damages of multilayer dielectric gratings,” Proc. SPIE 10339, 103390H (2017).
[Crossref]

T. Huang, X. Pan, P. Zhang, J. Wang, X. Ouyang, and X. Li, “High-Stability High-Energy Picosecond Optical Parametric Chirped Pulse Amplifier as a Preamplifier in Nd:Glass Petawatt System for Contrast Enhancement,” Chin. Phys. Lett. 34(6), 064203 (2017).
[Crossref]

M. Sozet, S. Bouillet, J. Berthelot, J. Neauport, L. Lamaignère, and L. Gallais, “Sub-picosecond laser damage growth on high reflective coatings for high power applications,” Opt. Express 25(21), 25767–25781 (2017).
[Crossref] [PubMed]

2016 (3)

M. Sozet, J. Neauport, E. Lavastre, N. Roquin, L. Gallais, and L. Lamaignère, “Laser damage growth with picosecond pulses,” Opt. Lett. 41(10), 2342–2345 (2016).
[Crossref] [PubMed]

N. Bonod and J. Neauport, “Diffraction gratings: from principles to applications in high-intensity lasers,” Adv. Opt. Photonics 8(1), 156–199 (2016).
[Crossref]

J. Vanda, J. Sevcik, E. Pupka, M. Sciuka, A. Melninkaitis, M. Divoky, V. Jambunathan, S. Bonora, V. Skoda, A. Lucianetti, D. Rostohar, T. Mocek, and V. Sirutkaitis, “Comparative LIDT measurements of optical components for high-energy HiLASE lasers,” High Power Laser Sci. Eng. 4, e11 (2016).
[Crossref]

2015 (3)

2013 (1)

2012 (2)

F. Kong, Y. Jin, D. Li, W. Chen, M. Zhu, T. Wang, C. Li, H. He, G. Xu, and J. Shao, “Effect of pulse duration on laser induced damage threshold of multilayer dielectric gratings,” Proc. SPIE 8530, 85300L (2012).
[Crossref]

Y. Jin, H. Guan, F. Kong, J. Wang, A. Erdmann, S. Liu, Y. Du, J. Shao, H. He, and K. Yi, “Influence of two typical defects on the near-field optical properties of multilayer dielectric compression gratings,” Appl. Opt. 51(27), 6683–6690 (2012).
[Crossref] [PubMed]

2011 (1)

S. Hocquet, J. Neauport, and N. Bonod, “The role of electric filed polarization of the incident laser beam in the short pulse damage mechanism of pulse compression gratings,” Appl. Phys. Lett. 99(6), 061101 (2011).
[Crossref]

2010 (1)

2009 (1)

2007 (3)

N. Lyndin, M. Flury, S. Tonchev, R. Fechner, and O. Parriaux, “Design and fabrication of an all-dielectric grating with top-hat high diffraction efficiency over a broad spectral range,” J. Eur. Opt. Soc. 2, 07019 (2007).
[Crossref]

J. Neauport, E. Lavastre, G. Razé, G. Dupuy, N. Bonod, M. Balas, G. de Villele, J. Flamand, S. Kaladgew, and F. Desserouer, “Effect of electric field on laser induced damage threshold of multilayer dielectric gratings,” Opt. Express 15(19), 12508–12522 (2007).
[Crossref] [PubMed]

S. Liu, Y. Jin, Y. Cui, J. Ma, J. Shao, and Z. Fan, “Characteristics of high reflection mirror with an SiO2 top layer for multilayer dielectric grating,” J. Phys. D. 40(10), 3224–3228 (2007).
[Crossref]

2006 (3)

M. A. Norton, E. E. Donohue, M. D. Feit, R. P. Hackel, W. G. Hollingsworth, A. M. Rubenchik, and M. L. Spaeth, “Growth of laser damage on the input surface of SiO2 at 351 nm,” Proc. SPIE 6403, 64030L (2006).
[Crossref]

N. Bonod and J. Neauport, “Optical performance and laser induced damage threshold improvement of diffraction gratings used as compressors in ultra high intensity lasers,” Opt. Commun. 260(2), 649–655 (2006).
[Crossref]

S. J. Liu, Z. C. Shen, W. J. Kong, J. Shen, Z. X. Deng, Y. N. Zhao, J. D. Shao, and Z. X. Fan, “Optimization of near-field optical field of multi-layer dielectric gratings for pulse compressor,” Opt. Commun. 267(1), 50–57 (2006).
[Crossref]

2005 (1)

P. E. Miller, T. I. Suratwala, L. L. Wong, M. D. Feit, J. A. Menapace, P. J. Davis, and R. A. Steele, “The distribution of subsurface damage in fused silica,” Proc. SPIE 5991, 599101 (2005).
[Crossref]

2004 (3)

I. Jovanovic, C. G. Brown, B. C. Stuart, W. A. Molander, N. D. Nielsen, B. Wattellier, J. A. Britten, D. M. Pennington, and C. P. J. Barty, “Precision damage tests of multilayer dielectric gratings for high-energy petawatt lasers,” Proc. SPIE 5647, 34–42 (2004).
[Crossref]

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

J. A. Britten, W. Molander, A. M. Komashko, and C. P. J. Barty, “Multilayer dielectric gratings for Petawatt-class laser systems,” Proc. SPIE 5273, 1–7 (2004).
[Crossref]

2003 (1)

2002 (1)

P. Mannion, J. Magee, E. Coyne, and G. M. O’Connor, “Ablation thresholds in ulltrafast laser micro-machining of common metals in air,” Proc. SPIE 4876, 470–478 (2002).
[Crossref]

1997 (1)

B. W. Shore, M. D. Perry, J. A. Britten, R. D. Boyd, M. D. Feit, H. T. Nguyen, R. Chow, G. E. Loomis, and L. F. Li, “Design of high-efficiency dielectric reflection gratings,” J. Opt. Soc. Am. 14(5), 1124–1136 (1997).
[Crossref]

1996 (1)

1995 (3)

M. D. Perry, R. D. Boyd, J. A. Britten, D. Decker, B. W. Shore, C. Shannon, E. Shults, and L. Li, “High-efficiency multilayer dielectric diffraction gratings: erratum,” Opt. Lett. 20(13), 1513 (1995).
[Crossref] [PubMed]

J. A. Britten, M. D. Perry, B. W. Shore, R. D. Boyd, G. E. Loomis, and R. Chow, “High-efficiency, dielectric multilayer gratings optimized for manufacturability and laser damage threshold,” Proc. SPIE 2714, 511–520 (1995).
[Crossref]

B. C. Stuart, M. D. Feit, S. Herman, A. M. Rubenchik, B. W. Shore, and M. D. Ferry, “Ultrashort-pulse optical damage,” Proc. SPIE 2714, 616–629 (1995).
[Crossref]

1985 (1)

D. Strickland and G. Mourou, “Compression of amplified chirped optical pulse,” Opt. Commun. 56(3), 219–221 (1985).
[Crossref]

Alessi, D.

Alessi, D. A.

Balas, M.

Barty, C. P. J.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

J. A. Britten, W. Molander, A. M. Komashko, and C. P. J. Barty, “Multilayer dielectric gratings for Petawatt-class laser systems,” Proc. SPIE 5273, 1–7 (2004).
[Crossref]

I. Jovanovic, C. G. Brown, B. C. Stuart, W. A. Molander, N. D. Nielsen, B. Wattellier, J. A. Britten, D. M. Pennington, and C. P. J. Barty, “Precision damage tests of multilayer dielectric gratings for high-energy petawatt lasers,” Proc. SPIE 5647, 34–42 (2004).
[Crossref]

Beach, R.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Beer, G.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Berthelot, J.

Bonod, N.

N. Bonod and J. Neauport, “Diffraction gratings: from principles to applications in high-intensity lasers,” Adv. Opt. Photonics 8(1), 156–199 (2016).
[Crossref]

S. Hocquet, J. Neauport, and N. Bonod, “The role of electric filed polarization of the incident laser beam in the short pulse damage mechanism of pulse compression gratings,” Appl. Phys. Lett. 99(6), 061101 (2011).
[Crossref]

J. Neauport, E. Lavastre, G. Razé, G. Dupuy, N. Bonod, M. Balas, G. de Villele, J. Flamand, S. Kaladgew, and F. Desserouer, “Effect of electric field on laser induced damage threshold of multilayer dielectric gratings,” Opt. Express 15(19), 12508–12522 (2007).
[Crossref] [PubMed]

N. Bonod and J. Neauport, “Optical performance and laser induced damage threshold improvement of diffraction gratings used as compressors in ultra high intensity lasers,” Opt. Commun. 260(2), 649–655 (2006).
[Crossref]

Bonora, S.

J. Vanda, J. Sevcik, E. Pupka, M. Sciuka, A. Melninkaitis, M. Divoky, V. Jambunathan, S. Bonora, V. Skoda, A. Lucianetti, D. Rostohar, T. Mocek, and V. Sirutkaitis, “Comparative LIDT measurements of optical components for high-energy HiLASE lasers,” High Power Laser Sci. Eng. 4, e11 (2016).
[Crossref]

Bouillet, S.

Boyd, R. D.

B. W. Shore, M. D. Perry, J. A. Britten, R. D. Boyd, M. D. Feit, H. T. Nguyen, R. Chow, G. E. Loomis, and L. F. Li, “Design of high-efficiency dielectric reflection gratings,” J. Opt. Soc. Am. 14(5), 1124–1136 (1997).
[Crossref]

J. A. Britten, M. D. Perry, B. W. Shore, and R. D. Boyd, “Universal grating design for pulse stretching and compression in the 800-1100-nm range,” Opt. Lett. 21(7), 540–542 (1996).
[Crossref] [PubMed]

M. D. Perry, R. D. Boyd, J. A. Britten, D. Decker, B. W. Shore, C. Shannon, E. Shults, and L. Li, “High-efficiency multilayer dielectric diffraction gratings: erratum,” Opt. Lett. 20(13), 1513 (1995).
[Crossref] [PubMed]

J. A. Britten, M. D. Perry, B. W. Shore, R. D. Boyd, G. E. Loomis, and R. Chow, “High-efficiency, dielectric multilayer gratings optimized for manufacturability and laser damage threshold,” Proc. SPIE 2714, 511–520 (1995).
[Crossref]

Britten, J.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Britten, J. A.

D. A. Alessi, C. W. Carr, R. P. Hackel, R. A. Negres, K. Stanion, J. E. Fair, D. A. Cross, J. Nissen, R. Luthi, G. Guss, J. A. Britten, W. H. Gourdin, and C. Haefner, “Picosecond laser damage performance assessment of multilayer dielectric gratings in vacuum,” Opt. Express 23(12), 15532–15544 (2015).
[Crossref] [PubMed]

D. H. Martz, H. T. Nguyen, D. Patel, J. A. Britten, D. Alessi, E. Krous, Y. Wang, M. A. Larotonda, J. George, B. Knollenberg, B. M. Luther, J. J. Rocca, and C. S. Menoni, “Large area high efficiency broad bandwidth 800 nm dielectric gratings for high energy laser pulse compression,” Opt. Express 17(26), 23809–23816 (2009).
[Crossref] [PubMed]

I. Jovanovic, C. G. Brown, B. C. Stuart, W. A. Molander, N. D. Nielsen, B. Wattellier, J. A. Britten, D. M. Pennington, and C. P. J. Barty, “Precision damage tests of multilayer dielectric gratings for high-energy petawatt lasers,” Proc. SPIE 5647, 34–42 (2004).
[Crossref]

J. A. Britten, W. Molander, A. M. Komashko, and C. P. J. Barty, “Multilayer dielectric gratings for Petawatt-class laser systems,” Proc. SPIE 5273, 1–7 (2004).
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B. W. Shore, M. D. Perry, J. A. Britten, R. D. Boyd, M. D. Feit, H. T. Nguyen, R. Chow, G. E. Loomis, and L. F. Li, “Design of high-efficiency dielectric reflection gratings,” J. Opt. Soc. Am. 14(5), 1124–1136 (1997).
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J. A. Britten, M. D. Perry, B. W. Shore, and R. D. Boyd, “Universal grating design for pulse stretching and compression in the 800-1100-nm range,” Opt. Lett. 21(7), 540–542 (1996).
[Crossref] [PubMed]

M. D. Perry, R. D. Boyd, J. A. Britten, D. Decker, B. W. Shore, C. Shannon, E. Shults, and L. Li, “High-efficiency multilayer dielectric diffraction gratings: erratum,” Opt. Lett. 20(13), 1513 (1995).
[Crossref] [PubMed]

J. A. Britten, M. D. Perry, B. W. Shore, R. D. Boyd, G. E. Loomis, and R. Chow, “High-efficiency, dielectric multilayer gratings optimized for manufacturability and laser damage threshold,” Proc. SPIE 2714, 511–520 (1995).
[Crossref]

Brown, C.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Brown, C. G.

I. Jovanovic, C. G. Brown, B. C. Stuart, W. A. Molander, N. D. Nielsen, B. Wattellier, J. A. Britten, D. M. Pennington, and C. P. J. Barty, “Precision damage tests of multilayer dielectric gratings for high-energy petawatt lasers,” Proc. SPIE 5647, 34–42 (2004).
[Crossref]

Bryan, S.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
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Bunkenburg, J.

Caird, J.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Carlson, T.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Carr, C. W.

Chambonneau, M.

Chanal, M.

Chen, W.

F. Kong, Y. Jin, D. Li, W. Chen, M. Zhu, T. Wang, C. Li, H. He, G. Xu, and J. Shao, “Effect of pulse duration on laser induced damage threshold of multilayer dielectric gratings,” Proc. SPIE 8530, 85300L (2012).
[Crossref]

Chow, R.

B. W. Shore, M. D. Perry, J. A. Britten, R. D. Boyd, M. D. Feit, H. T. Nguyen, R. Chow, G. E. Loomis, and L. F. Li, “Design of high-efficiency dielectric reflection gratings,” J. Opt. Soc. Am. 14(5), 1124–1136 (1997).
[Crossref]

J. A. Britten, M. D. Perry, B. W. Shore, R. D. Boyd, G. E. Loomis, and R. Chow, “High-efficiency, dielectric multilayer gratings optimized for manufacturability and laser damage threshold,” Proc. SPIE 2714, 511–520 (1995).
[Crossref]

Chowdhury, E.

Coyne, E.

P. Mannion, J. Magee, E. Coyne, and G. M. O’Connor, “Ablation thresholds in ulltrafast laser micro-machining of common metals in air,” Proc. SPIE 4876, 470–478 (2002).
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Crane, J.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Cross, D. A.

Cui, Y.

S. Liu, Y. Jin, Y. Cui, J. Ma, J. Shao, and Z. Fan, “Characteristics of high reflection mirror with an SiO2 top layer for multilayer dielectric grating,” J. Phys. D. 40(10), 3224–3228 (2007).
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Davis, P. J.

P. E. Miller, T. I. Suratwala, L. L. Wong, M. D. Feit, J. A. Menapace, P. J. Davis, and R. A. Steele, “The distribution of subsurface damage in fused silica,” Proc. SPIE 5991, 599101 (2005).
[Crossref]

Dawson, J.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

de Villele, G.

Decker, D.

Deng, Z. X.

S. J. Liu, Z. C. Shen, W. J. Kong, J. Shen, Z. X. Deng, Y. N. Zhao, J. D. Shao, and Z. X. Fan, “Optimization of near-field optical field of multi-layer dielectric gratings for pulse compressor,” Opt. Commun. 267(1), 50–57 (2006).
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Desserouer, F.

Divoky, M.

J. Vanda, J. Sevcik, E. Pupka, M. Sciuka, A. Melninkaitis, M. Divoky, V. Jambunathan, S. Bonora, V. Skoda, A. Lucianetti, D. Rostohar, T. Mocek, and V. Sirutkaitis, “Comparative LIDT measurements of optical components for high-energy HiLASE lasers,” High Power Laser Sci. Eng. 4, e11 (2016).
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Donohue, E. E.

M. A. Norton, E. E. Donohue, M. D. Feit, R. P. Hackel, W. G. Hollingsworth, A. M. Rubenchik, and M. L. Spaeth, “Growth of laser damage on the input surface of SiO2 at 351 nm,” Proc. SPIE 6403, 64030L (2006).
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Du, Y.

Duchateau, G.

Dupuy, G.

Erdmann, A.

Erlandson, A. C.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Fair, J. E.

Fan, Z.

S. Liu, Y. Jin, Y. Cui, J. Ma, J. Shao, and Z. Fan, “Characteristics of high reflection mirror with an SiO2 top layer for multilayer dielectric grating,” J. Phys. D. 40(10), 3224–3228 (2007).
[Crossref]

Fan, Z. X.

S. J. Liu, Z. C. Shen, W. J. Kong, J. Shen, Z. X. Deng, Y. N. Zhao, J. D. Shao, and Z. X. Fan, “Optimization of near-field optical field of multi-layer dielectric gratings for pulse compressor,” Opt. Commun. 267(1), 50–57 (2006).
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Fechner, R.

N. Lyndin, M. Flury, S. Tonchev, R. Fechner, and O. Parriaux, “Design and fabrication of an all-dielectric grating with top-hat high diffraction efficiency over a broad spectral range,” J. Eur. Opt. Soc. 2, 07019 (2007).
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Feit, M. D.

M. A. Norton, E. E. Donohue, M. D. Feit, R. P. Hackel, W. G. Hollingsworth, A. M. Rubenchik, and M. L. Spaeth, “Growth of laser damage on the input surface of SiO2 at 351 nm,” Proc. SPIE 6403, 64030L (2006).
[Crossref]

P. E. Miller, T. I. Suratwala, L. L. Wong, M. D. Feit, J. A. Menapace, P. J. Davis, and R. A. Steele, “The distribution of subsurface damage in fused silica,” Proc. SPIE 5991, 599101 (2005).
[Crossref]

B. W. Shore, M. D. Perry, J. A. Britten, R. D. Boyd, M. D. Feit, H. T. Nguyen, R. Chow, G. E. Loomis, and L. F. Li, “Design of high-efficiency dielectric reflection gratings,” J. Opt. Soc. Am. 14(5), 1124–1136 (1997).
[Crossref]

B. C. Stuart, M. D. Feit, S. Herman, A. M. Rubenchik, B. W. Shore, and M. D. Ferry, “Ultrashort-pulse optical damage,” Proc. SPIE 2714, 616–629 (1995).
[Crossref]

Ferry, M. D.

B. C. Stuart, M. D. Feit, S. Herman, A. M. Rubenchik, B. W. Shore, and M. D. Ferry, “Ultrashort-pulse optical damage,” Proc. SPIE 2714, 616–629 (1995).
[Crossref]

Fittinghoff, D.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
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Flamand, J.

Flury, M.

N. Lyndin, M. Flury, S. Tonchev, R. Fechner, and O. Parriaux, “Design and fabrication of an all-dielectric grating with top-hat high diffraction efficiency over a broad spectral range,” J. Eur. Opt. Soc. 2, 07019 (2007).
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Gallais, L.

George, J.

Gourdin, W. H.

Guan, H.

Guss, G.

Hackel, R. P.

Haefner, C.

Hao, Y.

Y. Hao, M. Sun, S. Shi, X. Pan, Z. Zhu, X. Pang, and J. Zhu, “Comparison between intrinsic and contaminant-induced damages of multilayer dielectric gratings,” Proc. SPIE 10339, 103390H (2017).
[Crossref]

He, H.

F. Kong, Y. Jin, H. Huang, H. Zhang, S. Liu, and H. He, “Laser-induced damage of multilayer dielectric gratings with picosecond laser pulses under vacuum and air,” Opt. Laser Technol. 73, 39–43 (2015).
[Crossref]

F. Kong, Y. Jin, D. Li, W. Chen, M. Zhu, T. Wang, C. Li, H. He, G. Xu, and J. Shao, “Effect of pulse duration on laser induced damage threshold of multilayer dielectric gratings,” Proc. SPIE 8530, 85300L (2012).
[Crossref]

Y. Jin, H. Guan, F. Kong, J. Wang, A. Erdmann, S. Liu, Y. Du, J. Shao, H. He, and K. Yi, “Influence of two typical defects on the near-field optical properties of multilayer dielectric compression gratings,” Appl. Opt. 51(27), 6683–6690 (2012).
[Crossref] [PubMed]

Herman, S.

B. C. Stuart, M. D. Feit, S. Herman, A. M. Rubenchik, B. W. Shore, and M. D. Ferry, “Ultrashort-pulse optical damage,” Proc. SPIE 2714, 616–629 (1995).
[Crossref]

Hermann, M.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Hoaglan, C.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
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Hocquet, S.

S. Hocquet, J. Neauport, and N. Bonod, “The role of electric filed polarization of the incident laser beam in the short pulse damage mechanism of pulse compression gratings,” Appl. Phys. Lett. 99(6), 061101 (2011).
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Hollingsworth, W. G.

M. A. Norton, E. E. Donohue, M. D. Feit, R. P. Hackel, W. G. Hollingsworth, A. M. Rubenchik, and M. L. Spaeth, “Growth of laser damage on the input surface of SiO2 at 351 nm,” Proc. SPIE 6403, 64030L (2006).
[Crossref]

Huang, H.

F. Kong, Y. Jin, H. Huang, H. Zhang, S. Liu, and H. He, “Laser-induced damage of multilayer dielectric gratings with picosecond laser pulses under vacuum and air,” Opt. Laser Technol. 73, 39–43 (2015).
[Crossref]

Huang, T.

T. Huang, X. Pan, P. Zhang, J. Wang, X. Ouyang, and X. Li, “High-Stability High-Energy Picosecond Optical Parametric Chirped Pulse Amplifier as a Preamplifier in Nd:Glass Petawatt System for Contrast Enhancement,” Chin. Phys. Lett. 34(6), 064203 (2017).
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Iyer, A.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Jambunathan, V.

J. Vanda, J. Sevcik, E. Pupka, M. Sciuka, A. Melninkaitis, M. Divoky, V. Jambunathan, S. Bonora, V. Skoda, A. Lucianetti, D. Rostohar, T. Mocek, and V. Sirutkaitis, “Comparative LIDT measurements of optical components for high-energy HiLASE lasers,” High Power Laser Sci. Eng. 4, e11 (2016).
[Crossref]

Jin, Y.

F. Kong, Y. Jin, H. Huang, H. Zhang, S. Liu, and H. He, “Laser-induced damage of multilayer dielectric gratings with picosecond laser pulses under vacuum and air,” Opt. Laser Technol. 73, 39–43 (2015).
[Crossref]

F. Kong, Y. Jin, D. Li, W. Chen, M. Zhu, T. Wang, C. Li, H. He, G. Xu, and J. Shao, “Effect of pulse duration on laser induced damage threshold of multilayer dielectric gratings,” Proc. SPIE 8530, 85300L (2012).
[Crossref]

Y. Jin, H. Guan, F. Kong, J. Wang, A. Erdmann, S. Liu, Y. Du, J. Shao, H. He, and K. Yi, “Influence of two typical defects on the near-field optical properties of multilayer dielectric compression gratings,” Appl. Opt. 51(27), 6683–6690 (2012).
[Crossref] [PubMed]

S. Liu, Y. Jin, Y. Cui, J. Ma, J. Shao, and Z. Fan, “Characteristics of high reflection mirror with an SiO2 top layer for multilayer dielectric grating,” J. Phys. D. 40(10), 3224–3228 (2007).
[Crossref]

Jones, L.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Jovanovic, I.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

I. Jovanovic, C. G. Brown, B. C. Stuart, W. A. Molander, N. D. Nielsen, B. Wattellier, J. A. Britten, D. M. Pennington, and C. P. J. Barty, “Precision damage tests of multilayer dielectric gratings for high-energy petawatt lasers,” Proc. SPIE 5647, 34–42 (2004).
[Crossref]

Kaladgew, S.

Key, M.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Kingsley, C.

Knollenberg, B.

Komashko, A.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Komashko, A. M.

J. A. Britten, W. Molander, A. M. Komashko, and C. P. J. Barty, “Multilayer dielectric gratings for Petawatt-class laser systems,” Proc. SPIE 5273, 1–7 (2004).
[Crossref]

Kong, F.

F. Kong, Y. Jin, H. Huang, H. Zhang, S. Liu, and H. He, “Laser-induced damage of multilayer dielectric gratings with picosecond laser pulses under vacuum and air,” Opt. Laser Technol. 73, 39–43 (2015).
[Crossref]

F. Kong, Y. Jin, D. Li, W. Chen, M. Zhu, T. Wang, C. Li, H. He, G. Xu, and J. Shao, “Effect of pulse duration on laser induced damage threshold of multilayer dielectric gratings,” Proc. SPIE 8530, 85300L (2012).
[Crossref]

Y. Jin, H. Guan, F. Kong, J. Wang, A. Erdmann, S. Liu, Y. Du, J. Shao, H. He, and K. Yi, “Influence of two typical defects on the near-field optical properties of multilayer dielectric compression gratings,” Appl. Opt. 51(27), 6683–6690 (2012).
[Crossref] [PubMed]

Kong, W. J.

S. J. Liu, Z. C. Shen, W. J. Kong, J. Shen, Z. X. Deng, Y. N. Zhao, J. D. Shao, and Z. X. Fan, “Optimization of near-field optical field of multi-layer dielectric gratings for pulse compressor,” Opt. Commun. 267(1), 50–57 (2006).
[Crossref]

Kozlov, A.

Krous, E.

Lamaignère, L.

Landen, O.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Larotonda, M. A.

Lavastre, E.

Li, C.

F. Kong, Y. Jin, D. Li, W. Chen, M. Zhu, T. Wang, C. Li, H. He, G. Xu, and J. Shao, “Effect of pulse duration on laser induced damage threshold of multilayer dielectric gratings,” Proc. SPIE 8530, 85300L (2012).
[Crossref]

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F. Kong, Y. Jin, D. Li, W. Chen, M. Zhu, T. Wang, C. Li, H. He, G. Xu, and J. Shao, “Effect of pulse duration on laser induced damage threshold of multilayer dielectric gratings,” Proc. SPIE 8530, 85300L (2012).
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Li, L.

Li, L. F.

B. W. Shore, M. D. Perry, J. A. Britten, R. D. Boyd, M. D. Feit, H. T. Nguyen, R. Chow, G. E. Loomis, and L. F. Li, “Design of high-efficiency dielectric reflection gratings,” J. Opt. Soc. Am. 14(5), 1124–1136 (1997).
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Li, X.

T. Huang, X. Pan, P. Zhang, J. Wang, X. Ouyang, and X. Li, “High-Stability High-Energy Picosecond Optical Parametric Chirped Pulse Amplifier as a Preamplifier in Nd:Glass Petawatt System for Contrast Enhancement,” Chin. Phys. Lett. 34(6), 064203 (2017).
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Liao, Z.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
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Liu, S.

F. Kong, Y. Jin, H. Huang, H. Zhang, S. Liu, and H. He, “Laser-induced damage of multilayer dielectric gratings with picosecond laser pulses under vacuum and air,” Opt. Laser Technol. 73, 39–43 (2015).
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Y. Jin, H. Guan, F. Kong, J. Wang, A. Erdmann, S. Liu, Y. Du, J. Shao, H. He, and K. Yi, “Influence of two typical defects on the near-field optical properties of multilayer dielectric compression gratings,” Appl. Opt. 51(27), 6683–6690 (2012).
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S. Liu, Y. Jin, Y. Cui, J. Ma, J. Shao, and Z. Fan, “Characteristics of high reflection mirror with an SiO2 top layer for multilayer dielectric grating,” J. Phys. D. 40(10), 3224–3228 (2007).
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Liu, S. J.

S. J. Liu, Z. C. Shen, W. J. Kong, J. Shen, Z. X. Deng, Y. N. Zhao, J. D. Shao, and Z. X. Fan, “Optimization of near-field optical field of multi-layer dielectric gratings for pulse compressor,” Opt. Commun. 267(1), 50–57 (2006).
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B. W. Shore, M. D. Perry, J. A. Britten, R. D. Boyd, M. D. Feit, H. T. Nguyen, R. Chow, G. E. Loomis, and L. F. Li, “Design of high-efficiency dielectric reflection gratings,” J. Opt. Soc. Am. 14(5), 1124–1136 (1997).
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J. A. Britten, M. D. Perry, B. W. Shore, R. D. Boyd, G. E. Loomis, and R. Chow, “High-efficiency, dielectric multilayer gratings optimized for manufacturability and laser damage threshold,” Proc. SPIE 2714, 511–520 (1995).
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J. Vanda, J. Sevcik, E. Pupka, M. Sciuka, A. Melninkaitis, M. Divoky, V. Jambunathan, S. Bonora, V. Skoda, A. Lucianetti, D. Rostohar, T. Mocek, and V. Sirutkaitis, “Comparative LIDT measurements of optical components for high-energy HiLASE lasers,” High Power Laser Sci. Eng. 4, e11 (2016).
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Luthi, R.

Lyndin, N.

N. Lyndin, M. Flury, S. Tonchev, R. Fechner, and O. Parriaux, “Design and fabrication of an all-dielectric grating with top-hat high diffraction efficiency over a broad spectral range,” J. Eur. Opt. Soc. 2, 07019 (2007).
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Ma, J.

S. Liu, Y. Jin, Y. Cui, J. Ma, J. Shao, and Z. Fan, “Characteristics of high reflection mirror with an SiO2 top layer for multilayer dielectric grating,” J. Phys. D. 40(10), 3224–3228 (2007).
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Magee, J.

P. Mannion, J. Magee, E. Coyne, and G. M. O’Connor, “Ablation thresholds in ulltrafast laser micro-machining of common metals in air,” Proc. SPIE 4876, 470–478 (2002).
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P. Mannion, J. Magee, E. Coyne, and G. M. O’Connor, “Ablation thresholds in ulltrafast laser micro-machining of common metals in air,” Proc. SPIE 4876, 470–478 (2002).
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Melninkaitis, A.

J. Vanda, J. Sevcik, E. Pupka, M. Sciuka, A. Melninkaitis, M. Divoky, V. Jambunathan, S. Bonora, V. Skoda, A. Lucianetti, D. Rostohar, T. Mocek, and V. Sirutkaitis, “Comparative LIDT measurements of optical components for high-energy HiLASE lasers,” High Power Laser Sci. Eng. 4, e11 (2016).
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P. E. Miller, T. I. Suratwala, L. L. Wong, M. D. Feit, J. A. Menapace, P. J. Davis, and R. A. Steele, “The distribution of subsurface damage in fused silica,” Proc. SPIE 5991, 599101 (2005).
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Miller, P. E.

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Mitchell, S.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
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J. Vanda, J. Sevcik, E. Pupka, M. Sciuka, A. Melninkaitis, M. Divoky, V. Jambunathan, S. Bonora, V. Skoda, A. Lucianetti, D. Rostohar, T. Mocek, and V. Sirutkaitis, “Comparative LIDT measurements of optical components for high-energy HiLASE lasers,” High Power Laser Sci. Eng. 4, e11 (2016).
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Nguyen, H. H.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
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Nguyen, H. T.

Nguyen, T.

Nielsen, N.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
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Nielsen, N. D.

I. Jovanovic, C. G. Brown, B. C. Stuart, W. A. Molander, N. D. Nielsen, B. Wattellier, J. A. Britten, D. M. Pennington, and C. P. J. Barty, “Precision damage tests of multilayer dielectric gratings for high-energy petawatt lasers,” Proc. SPIE 5647, 34–42 (2004).
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M. A. Norton, E. E. Donohue, M. D. Feit, R. P. Hackel, W. G. Hollingsworth, A. M. Rubenchik, and M. L. Spaeth, “Growth of laser damage on the input surface of SiO2 at 351 nm,” Proc. SPIE 6403, 64030L (2006).
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O’Connor, G. M.

P. Mannion, J. Magee, E. Coyne, and G. M. O’Connor, “Ablation thresholds in ulltrafast laser micro-machining of common metals in air,” Proc. SPIE 4876, 470–478 (2002).
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Ouyang, X.

T. Huang, X. Pan, P. Zhang, J. Wang, X. Ouyang, and X. Li, “High-Stability High-Energy Picosecond Optical Parametric Chirped Pulse Amplifier as a Preamplifier in Nd:Glass Petawatt System for Contrast Enhancement,” Chin. Phys. Lett. 34(6), 064203 (2017).
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Pan, X.

T. Huang, X. Pan, P. Zhang, J. Wang, X. Ouyang, and X. Li, “High-Stability High-Energy Picosecond Optical Parametric Chirped Pulse Amplifier as a Preamplifier in Nd:Glass Petawatt System for Contrast Enhancement,” Chin. Phys. Lett. 34(6), 064203 (2017).
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Y. Hao, M. Sun, S. Shi, X. Pan, Z. Zhu, X. Pang, and J. Zhu, “Comparison between intrinsic and contaminant-induced damages of multilayer dielectric gratings,” Proc. SPIE 10339, 103390H (2017).
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Pang, X.

Y. Hao, M. Sun, S. Shi, X. Pan, Z. Zhu, X. Pang, and J. Zhu, “Comparison between intrinsic and contaminant-induced damages of multilayer dielectric gratings,” Proc. SPIE 10339, 103390H (2017).
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Parriaux, O.

N. Lyndin, M. Flury, S. Tonchev, R. Fechner, and O. Parriaux, “Design and fabrication of an all-dielectric grating with top-hat high diffraction efficiency over a broad spectral range,” J. Eur. Opt. Soc. 2, 07019 (2007).
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Patel, D.

Payne, S.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
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Pennington, D.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
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Pennington, D. M.

I. Jovanovic, C. G. Brown, B. C. Stuart, W. A. Molander, N. D. Nielsen, B. Wattellier, J. A. Britten, D. M. Pennington, and C. P. J. Barty, “Precision damage tests of multilayer dielectric gratings for high-energy petawatt lasers,” Proc. SPIE 5647, 34–42 (2004).
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Perry, M. D.

B. W. Shore, M. D. Perry, J. A. Britten, R. D. Boyd, M. D. Feit, H. T. Nguyen, R. Chow, G. E. Loomis, and L. F. Li, “Design of high-efficiency dielectric reflection gratings,” J. Opt. Soc. Am. 14(5), 1124–1136 (1997).
[Crossref]

J. A. Britten, M. D. Perry, B. W. Shore, and R. D. Boyd, “Universal grating design for pulse stretching and compression in the 800-1100-nm range,” Opt. Lett. 21(7), 540–542 (1996).
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M. D. Perry, R. D. Boyd, J. A. Britten, D. Decker, B. W. Shore, C. Shannon, E. Shults, and L. Li, “High-efficiency multilayer dielectric diffraction gratings: erratum,” Opt. Lett. 20(13), 1513 (1995).
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J. A. Britten, M. D. Perry, B. W. Shore, R. D. Boyd, G. E. Loomis, and R. Chow, “High-efficiency, dielectric multilayer gratings optimized for manufacturability and laser damage threshold,” Proc. SPIE 2714, 511–520 (1995).
[Crossref]

Poole, P.

Pupka, E.

J. Vanda, J. Sevcik, E. Pupka, M. Sciuka, A. Melninkaitis, M. Divoky, V. Jambunathan, S. Bonora, V. Skoda, A. Lucianetti, D. Rostohar, T. Mocek, and V. Sirutkaitis, “Comparative LIDT measurements of optical components for high-energy HiLASE lasers,” High Power Laser Sci. Eng. 4, e11 (2016).
[Crossref]

Qiao, J.

Razé, G.

Reyné, S.

Risinger, L.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Rocca, J. J.

Roquin, N.

Rostohar, D.

J. Vanda, J. Sevcik, E. Pupka, M. Sciuka, A. Melninkaitis, M. Divoky, V. Jambunathan, S. Bonora, V. Skoda, A. Lucianetti, D. Rostohar, T. Mocek, and V. Sirutkaitis, “Comparative LIDT measurements of optical components for high-energy HiLASE lasers,” High Power Laser Sci. Eng. 4, e11 (2016).
[Crossref]

Rubenchik, A. M.

M. A. Norton, E. E. Donohue, M. D. Feit, R. P. Hackel, W. G. Hollingsworth, A. M. Rubenchik, and M. L. Spaeth, “Growth of laser damage on the input surface of SiO2 at 351 nm,” Proc. SPIE 6403, 64030L (2006).
[Crossref]

B. C. Stuart, M. D. Feit, S. Herman, A. M. Rubenchik, B. W. Shore, and M. D. Ferry, “Ultrashort-pulse optical damage,” Proc. SPIE 2714, 616–629 (1995).
[Crossref]

Rushford, M.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Schmid, A. W.

Sciuka, M.

J. Vanda, J. Sevcik, E. Pupka, M. Sciuka, A. Melninkaitis, M. Divoky, V. Jambunathan, S. Bonora, V. Skoda, A. Lucianetti, D. Rostohar, T. Mocek, and V. Sirutkaitis, “Comparative LIDT measurements of optical components for high-energy HiLASE lasers,” High Power Laser Sci. Eng. 4, e11 (2016).
[Crossref]

Sevcik, J.

J. Vanda, J. Sevcik, E. Pupka, M. Sciuka, A. Melninkaitis, M. Divoky, V. Jambunathan, S. Bonora, V. Skoda, A. Lucianetti, D. Rostohar, T. Mocek, and V. Sirutkaitis, “Comparative LIDT measurements of optical components for high-energy HiLASE lasers,” High Power Laser Sci. Eng. 4, e11 (2016).
[Crossref]

Shannon, C.

Shao, J.

Y. Jin, H. Guan, F. Kong, J. Wang, A. Erdmann, S. Liu, Y. Du, J. Shao, H. He, and K. Yi, “Influence of two typical defects on the near-field optical properties of multilayer dielectric compression gratings,” Appl. Opt. 51(27), 6683–6690 (2012).
[Crossref] [PubMed]

F. Kong, Y. Jin, D. Li, W. Chen, M. Zhu, T. Wang, C. Li, H. He, G. Xu, and J. Shao, “Effect of pulse duration on laser induced damage threshold of multilayer dielectric gratings,” Proc. SPIE 8530, 85300L (2012).
[Crossref]

S. Liu, Y. Jin, Y. Cui, J. Ma, J. Shao, and Z. Fan, “Characteristics of high reflection mirror with an SiO2 top layer for multilayer dielectric grating,” J. Phys. D. 40(10), 3224–3228 (2007).
[Crossref]

Shao, J. D.

S. J. Liu, Z. C. Shen, W. J. Kong, J. Shen, Z. X. Deng, Y. N. Zhao, J. D. Shao, and Z. X. Fan, “Optimization of near-field optical field of multi-layer dielectric gratings for pulse compressor,” Opt. Commun. 267(1), 50–57 (2006).
[Crossref]

Shen, J.

S. J. Liu, Z. C. Shen, W. J. Kong, J. Shen, Z. X. Deng, Y. N. Zhao, J. D. Shao, and Z. X. Fan, “Optimization of near-field optical field of multi-layer dielectric gratings for pulse compressor,” Opt. Commun. 267(1), 50–57 (2006).
[Crossref]

Shen, Z. C.

S. J. Liu, Z. C. Shen, W. J. Kong, J. Shen, Z. X. Deng, Y. N. Zhao, J. D. Shao, and Z. X. Fan, “Optimization of near-field optical field of multi-layer dielectric gratings for pulse compressor,” Opt. Commun. 267(1), 50–57 (2006).
[Crossref]

Shi, S.

Y. Hao, M. Sun, S. Shi, X. Pan, Z. Zhu, X. Pang, and J. Zhu, “Comparison between intrinsic and contaminant-induced damages of multilayer dielectric gratings,” Proc. SPIE 10339, 103390H (2017).
[Crossref]

Shore, B. W.

B. W. Shore, M. D. Perry, J. A. Britten, R. D. Boyd, M. D. Feit, H. T. Nguyen, R. Chow, G. E. Loomis, and L. F. Li, “Design of high-efficiency dielectric reflection gratings,” J. Opt. Soc. Am. 14(5), 1124–1136 (1997).
[Crossref]

J. A. Britten, M. D. Perry, B. W. Shore, and R. D. Boyd, “Universal grating design for pulse stretching and compression in the 800-1100-nm range,” Opt. Lett. 21(7), 540–542 (1996).
[Crossref] [PubMed]

B. C. Stuart, M. D. Feit, S. Herman, A. M. Rubenchik, B. W. Shore, and M. D. Ferry, “Ultrashort-pulse optical damage,” Proc. SPIE 2714, 616–629 (1995).
[Crossref]

M. D. Perry, R. D. Boyd, J. A. Britten, D. Decker, B. W. Shore, C. Shannon, E. Shults, and L. Li, “High-efficiency multilayer dielectric diffraction gratings: erratum,” Opt. Lett. 20(13), 1513 (1995).
[Crossref] [PubMed]

J. A. Britten, M. D. Perry, B. W. Shore, R. D. Boyd, G. E. Loomis, and R. Chow, “High-efficiency, dielectric multilayer gratings optimized for manufacturability and laser damage threshold,” Proc. SPIE 2714, 511–520 (1995).
[Crossref]

Shults, E.

Shvets, G.

Sirutkaitis, V.

J. Vanda, J. Sevcik, E. Pupka, M. Sciuka, A. Melninkaitis, M. Divoky, V. Jambunathan, S. Bonora, V. Skoda, A. Lucianetti, D. Rostohar, T. Mocek, and V. Sirutkaitis, “Comparative LIDT measurements of optical components for high-energy HiLASE lasers,” High Power Laser Sci. Eng. 4, e11 (2016).
[Crossref]

Skoda, V.

J. Vanda, J. Sevcik, E. Pupka, M. Sciuka, A. Melninkaitis, M. Divoky, V. Jambunathan, S. Bonora, V. Skoda, A. Lucianetti, D. Rostohar, T. Mocek, and V. Sirutkaitis, “Comparative LIDT measurements of optical components for high-energy HiLASE lasers,” High Power Laser Sci. Eng. 4, e11 (2016).
[Crossref]

Skulina, K.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Smith, D.

Sozet, M.

Spaeth, M.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Spaeth, M. L.

M. A. Norton, E. E. Donohue, M. D. Feit, R. P. Hackel, W. G. Hollingsworth, A. M. Rubenchik, and M. L. Spaeth, “Growth of laser damage on the input surface of SiO2 at 351 nm,” Proc. SPIE 6403, 64030L (2006).
[Crossref]

Stanion, K.

Steele, R. A.

P. E. Miller, T. I. Suratwala, L. L. Wong, M. D. Feit, J. A. Menapace, P. J. Davis, and R. A. Steele, “The distribution of subsurface damage in fused silica,” Proc. SPIE 5991, 599101 (2005).
[Crossref]

Strickland, D.

D. Strickland and G. Mourou, “Compression of amplified chirped optical pulse,” Opt. Commun. 56(3), 219–221 (1985).
[Crossref]

Stuart, B.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Stuart, B. C.

I. Jovanovic, C. G. Brown, B. C. Stuart, W. A. Molander, N. D. Nielsen, B. Wattellier, J. A. Britten, D. M. Pennington, and C. P. J. Barty, “Precision damage tests of multilayer dielectric gratings for high-energy petawatt lasers,” Proc. SPIE 5647, 34–42 (2004).
[Crossref]

B. C. Stuart, M. D. Feit, S. Herman, A. M. Rubenchik, B. W. Shore, and M. D. Ferry, “Ultrashort-pulse optical damage,” Proc. SPIE 2714, 616–629 (1995).
[Crossref]

Sun, M.

Y. Hao, M. Sun, S. Shi, X. Pan, Z. Zhu, X. Pang, and J. Zhu, “Comparison between intrinsic and contaminant-induced damages of multilayer dielectric gratings,” Proc. SPIE 10339, 103390H (2017).
[Crossref]

Suratwala, T. I.

P. E. Miller, T. I. Suratwala, L. L. Wong, M. D. Feit, J. A. Menapace, P. J. Davis, and R. A. Steele, “The distribution of subsurface damage in fused silica,” Proc. SPIE 5991, 599101 (2005).
[Crossref]

Tietbohl, G.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Tonchev, S.

N. Lyndin, M. Flury, S. Tonchev, R. Fechner, and O. Parriaux, “Design and fabrication of an all-dielectric grating with top-hat high diffraction efficiency over a broad spectral range,” J. Eur. Opt. Soc. 2, 07019 (2007).
[Crossref]

Trendafilov, S.

Vanda, J.

J. Vanda, J. Sevcik, E. Pupka, M. Sciuka, A. Melninkaitis, M. Divoky, V. Jambunathan, S. Bonora, V. Skoda, A. Lucianetti, D. Rostohar, T. Mocek, and V. Sirutkaitis, “Comparative LIDT measurements of optical components for high-energy HiLASE lasers,” High Power Laser Sci. Eng. 4, e11 (2016).
[Crossref]

Wang, J.

T. Huang, X. Pan, P. Zhang, J. Wang, X. Ouyang, and X. Li, “High-Stability High-Energy Picosecond Optical Parametric Chirped Pulse Amplifier as a Preamplifier in Nd:Glass Petawatt System for Contrast Enhancement,” Chin. Phys. Lett. 34(6), 064203 (2017).
[Crossref]

Y. Jin, H. Guan, F. Kong, J. Wang, A. Erdmann, S. Liu, Y. Du, J. Shao, H. He, and K. Yi, “Influence of two typical defects on the near-field optical properties of multilayer dielectric compression gratings,” Appl. Opt. 51(27), 6683–6690 (2012).
[Crossref] [PubMed]

Wang, T.

F. Kong, Y. Jin, D. Li, W. Chen, M. Zhu, T. Wang, C. Li, H. He, G. Xu, and J. Shao, “Effect of pulse duration on laser induced damage threshold of multilayer dielectric gratings,” Proc. SPIE 8530, 85300L (2012).
[Crossref]

Wang, Y.

Wattellier, B.

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

I. Jovanovic, C. G. Brown, B. C. Stuart, W. A. Molander, N. D. Nielsen, B. Wattellier, J. A. Britten, D. M. Pennington, and C. P. J. Barty, “Precision damage tests of multilayer dielectric gratings for high-energy petawatt lasers,” Proc. SPIE 5647, 34–42 (2004).
[Crossref]

Waxer, L. J.

Wei, H.

Weiner, D.

Wong, L. L.

P. E. Miller, T. I. Suratwala, L. L. Wong, M. D. Feit, J. A. Menapace, P. J. Davis, and R. A. Steele, “The distribution of subsurface damage in fused silica,” Proc. SPIE 5991, 599101 (2005).
[Crossref]

Xu, G.

F. Kong, Y. Jin, D. Li, W. Chen, M. Zhu, T. Wang, C. Li, H. He, G. Xu, and J. Shao, “Effect of pulse duration on laser induced damage threshold of multilayer dielectric gratings,” Proc. SPIE 8530, 85300L (2012).
[Crossref]

Yi, K.

Zhang, H.

F. Kong, Y. Jin, H. Huang, H. Zhang, S. Liu, and H. He, “Laser-induced damage of multilayer dielectric gratings with picosecond laser pulses under vacuum and air,” Opt. Laser Technol. 73, 39–43 (2015).
[Crossref]

Zhang, P.

T. Huang, X. Pan, P. Zhang, J. Wang, X. Ouyang, and X. Li, “High-Stability High-Energy Picosecond Optical Parametric Chirped Pulse Amplifier as a Preamplifier in Nd:Glass Petawatt System for Contrast Enhancement,” Chin. Phys. Lett. 34(6), 064203 (2017).
[Crossref]

Zhao, Y. N.

S. J. Liu, Z. C. Shen, W. J. Kong, J. Shen, Z. X. Deng, Y. N. Zhao, J. D. Shao, and Z. X. Fan, “Optimization of near-field optical field of multi-layer dielectric gratings for pulse compressor,” Opt. Commun. 267(1), 50–57 (2006).
[Crossref]

Zhu, J.

Y. Hao, M. Sun, S. Shi, X. Pan, Z. Zhu, X. Pang, and J. Zhu, “Comparison between intrinsic and contaminant-induced damages of multilayer dielectric gratings,” Proc. SPIE 10339, 103390H (2017).
[Crossref]

Zhu, M.

F. Kong, Y. Jin, D. Li, W. Chen, M. Zhu, T. Wang, C. Li, H. He, G. Xu, and J. Shao, “Effect of pulse duration on laser induced damage threshold of multilayer dielectric gratings,” Proc. SPIE 8530, 85300L (2012).
[Crossref]

Zhu, Z.

Y. Hao, M. Sun, S. Shi, X. Pan, Z. Zhu, X. Pang, and J. Zhu, “Comparison between intrinsic and contaminant-induced damages of multilayer dielectric gratings,” Proc. SPIE 10339, 103390H (2017).
[Crossref]

Adv. Opt. Photonics (1)

N. Bonod and J. Neauport, “Diffraction gratings: from principles to applications in high-intensity lasers,” Adv. Opt. Photonics 8(1), 156–199 (2016).
[Crossref]

Appl. Opt. (3)

Appl. Phys. Lett. (1)

S. Hocquet, J. Neauport, and N. Bonod, “The role of electric filed polarization of the incident laser beam in the short pulse damage mechanism of pulse compression gratings,” Appl. Phys. Lett. 99(6), 061101 (2011).
[Crossref]

Chin. Phys. Lett. (1)

T. Huang, X. Pan, P. Zhang, J. Wang, X. Ouyang, and X. Li, “High-Stability High-Energy Picosecond Optical Parametric Chirped Pulse Amplifier as a Preamplifier in Nd:Glass Petawatt System for Contrast Enhancement,” Chin. Phys. Lett. 34(6), 064203 (2017).
[Crossref]

High Power Laser Sci. Eng. (1)

J. Vanda, J. Sevcik, E. Pupka, M. Sciuka, A. Melninkaitis, M. Divoky, V. Jambunathan, S. Bonora, V. Skoda, A. Lucianetti, D. Rostohar, T. Mocek, and V. Sirutkaitis, “Comparative LIDT measurements of optical components for high-energy HiLASE lasers,” High Power Laser Sci. Eng. 4, e11 (2016).
[Crossref]

J. Eur. Opt. Soc. (1)

N. Lyndin, M. Flury, S. Tonchev, R. Fechner, and O. Parriaux, “Design and fabrication of an all-dielectric grating with top-hat high diffraction efficiency over a broad spectral range,” J. Eur. Opt. Soc. 2, 07019 (2007).
[Crossref]

J. Opt. Soc. Am. (1)

B. W. Shore, M. D. Perry, J. A. Britten, R. D. Boyd, M. D. Feit, H. T. Nguyen, R. Chow, G. E. Loomis, and L. F. Li, “Design of high-efficiency dielectric reflection gratings,” J. Opt. Soc. Am. 14(5), 1124–1136 (1997).
[Crossref]

J. Phys. D. (1)

S. Liu, Y. Jin, Y. Cui, J. Ma, J. Shao, and Z. Fan, “Characteristics of high reflection mirror with an SiO2 top layer for multilayer dielectric grating,” J. Phys. D. 40(10), 3224–3228 (2007).
[Crossref]

Nucl. Fusion (1)

C. P. J. Barty, M. Key, J. Britten, R. Beach, G. Beer, C. Brown, S. Bryan, J. Caird, T. Carlson, J. Crane, J. Dawson, A. C. Erlandson, D. Fittinghoff, M. Hermann, C. Hoaglan, A. Iyer, L. Jones, I. Jovanovic, A. Komashko, O. Landen, Z. Liao, W. Molander, S. Mitchell, E. Moses, N. Nielsen, H. H. Nguyen, J. Nissen, S. Payne, D. Pennington, L. Risinger, M. Rushford, K. Skulina, M. Spaeth, B. Stuart, G. Tietbohl, and B. Wattellier, “An overview of LLNL high-energy short-pulse technology for advanced radiography of laser fusion experiments,” Nucl. Fusion 44(12), S266–S275 (2004).
[Crossref]

Opt. Commun. (3)

D. Strickland and G. Mourou, “Compression of amplified chirped optical pulse,” Opt. Commun. 56(3), 219–221 (1985).
[Crossref]

S. J. Liu, Z. C. Shen, W. J. Kong, J. Shen, Z. X. Deng, Y. N. Zhao, J. D. Shao, and Z. X. Fan, “Optimization of near-field optical field of multi-layer dielectric gratings for pulse compressor,” Opt. Commun. 267(1), 50–57 (2006).
[Crossref]

N. Bonod and J. Neauport, “Optical performance and laser induced damage threshold improvement of diffraction gratings used as compressors in ultra high intensity lasers,” Opt. Commun. 260(2), 649–655 (2006).
[Crossref]

Opt. Express (6)

M. Sozet, S. Bouillet, J. Berthelot, J. Neauport, L. Lamaignère, and L. Gallais, “Sub-picosecond laser damage growth on high reflective coatings for high power applications,” Opt. Express 25(21), 25767–25781 (2017).
[Crossref] [PubMed]

J. Neauport, E. Lavastre, G. Razé, G. Dupuy, N. Bonod, M. Balas, G. de Villele, J. Flamand, S. Kaladgew, and F. Desserouer, “Effect of electric field on laser induced damage threshold of multilayer dielectric gratings,” Opt. Express 15(19), 12508–12522 (2007).
[Crossref] [PubMed]

D. A. Alessi, C. W. Carr, R. P. Hackel, R. A. Negres, K. Stanion, J. E. Fair, D. A. Cross, J. Nissen, R. Luthi, G. Guss, J. A. Britten, W. H. Gourdin, and C. Haefner, “Picosecond laser damage performance assessment of multilayer dielectric gratings in vacuum,” Opt. Express 23(12), 15532–15544 (2015).
[Crossref] [PubMed]

J. Qiao, A. W. Schmid, L. J. Waxer, T. Nguyen, J. Bunkenburg, C. Kingsley, A. Kozlov, and D. Weiner, “in situ detection and analysis of laser-induced damage on a 1.5-m multilayer-dielectric grating compressor for high-energy, petawatt-class laser systems,” Opt. Express 18(10), 10423–10431 (2010).
[Crossref] [PubMed]

P. Poole, S. Trendafilov, G. Shvets, D. Smith, and E. Chowdhury, “Femtosecond laser damage threshold of pulse compression gratings for petawatt scale laser systems,” Opt. Express 21(22), 26341–26351 (2013).
[Crossref] [PubMed]

D. H. Martz, H. T. Nguyen, D. Patel, J. A. Britten, D. Alessi, E. Krous, Y. Wang, M. A. Larotonda, J. George, B. Knollenberg, B. M. Luther, J. J. Rocca, and C. S. Menoni, “Large area high efficiency broad bandwidth 800 nm dielectric gratings for high energy laser pulse compression,” Opt. Express 17(26), 23809–23816 (2009).
[Crossref] [PubMed]

Opt. Laser Technol. (1)

F. Kong, Y. Jin, H. Huang, H. Zhang, S. Liu, and H. He, “Laser-induced damage of multilayer dielectric gratings with picosecond laser pulses under vacuum and air,” Opt. Laser Technol. 73, 39–43 (2015).
[Crossref]

Opt. Lett. (3)

Proc. SPIE (9)

P. Mannion, J. Magee, E. Coyne, and G. M. O’Connor, “Ablation thresholds in ulltrafast laser micro-machining of common metals in air,” Proc. SPIE 4876, 470–478 (2002).
[Crossref]

Y. Hao, M. Sun, S. Shi, X. Pan, Z. Zhu, X. Pang, and J. Zhu, “Comparison between intrinsic and contaminant-induced damages of multilayer dielectric gratings,” Proc. SPIE 10339, 103390H (2017).
[Crossref]

M. A. Norton, E. E. Donohue, M. D. Feit, R. P. Hackel, W. G. Hollingsworth, A. M. Rubenchik, and M. L. Spaeth, “Growth of laser damage on the input surface of SiO2 at 351 nm,” Proc. SPIE 6403, 64030L (2006).
[Crossref]

P. E. Miller, T. I. Suratwala, L. L. Wong, M. D. Feit, J. A. Menapace, P. J. Davis, and R. A. Steele, “The distribution of subsurface damage in fused silica,” Proc. SPIE 5991, 599101 (2005).
[Crossref]

B. C. Stuart, M. D. Feit, S. Herman, A. M. Rubenchik, B. W. Shore, and M. D. Ferry, “Ultrashort-pulse optical damage,” Proc. SPIE 2714, 616–629 (1995).
[Crossref]

F. Kong, Y. Jin, D. Li, W. Chen, M. Zhu, T. Wang, C. Li, H. He, G. Xu, and J. Shao, “Effect of pulse duration on laser induced damage threshold of multilayer dielectric gratings,” Proc. SPIE 8530, 85300L (2012).
[Crossref]

J. A. Britten, M. D. Perry, B. W. Shore, R. D. Boyd, G. E. Loomis, and R. Chow, “High-efficiency, dielectric multilayer gratings optimized for manufacturability and laser damage threshold,” Proc. SPIE 2714, 511–520 (1995).
[Crossref]

I. Jovanovic, C. G. Brown, B. C. Stuart, W. A. Molander, N. D. Nielsen, B. Wattellier, J. A. Britten, D. M. Pennington, and C. P. J. Barty, “Precision damage tests of multilayer dielectric gratings for high-energy petawatt lasers,” Proc. SPIE 5647, 34–42 (2004).
[Crossref]

J. A. Britten, W. Molander, A. M. Komashko, and C. P. J. Barty, “Multilayer dielectric gratings for Petawatt-class laser systems,” Proc. SPIE 5273, 1–7 (2004).
[Crossref]

Other (2)

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Figures (13)

Fig. 1
Fig. 1 SEM image of a pristine MLDG.
Fig. 2
Fig. 2 S/1 damage probability versus laser fluence with shot numbers of 1, 3, 5, 10, and 20.
Fig. 3
Fig. 3 Damage area after various shots when the damage growth was performed at the fluence of 3.79J/cm2. The shot number is indicated in the upper left corner of each graph and “0” represents the raw grating condition. The red dot is the laser spot center and the yellow square indicates the barycenter of the damage area. Δ is the distance between the spot center and damage barycenter. The laser is incident from the right as indicated by a black arrow in graph (i). The red ellipse in graph (i) represents the elliptic laser spot with the diameter at 2/3 maximum. The minor axis of the elliptic spot is marked by a red dashed line in graph (i), and divides the damage area into the left and right parts. The scale is given at the bottom left graph.
Fig. 4
Fig. 4 The deviation distance Δ between the damage barycenter and spot center varies with shot number.
Fig. 5
Fig. 5 (a) The complete growth sequences of the total damage area ST with the shot number when the damage growth is performed at 3.79J/cm2. The area SL, SR of the left and right parts of the damage site are also plotted. (b) Linear growth region of the damage area growth sequence shown in (a). Linear fits to the data are done with an R-squared value.
Fig. 6
Fig. 6 The complete growth sequences of the total damage area ST at different fluences. The linear growth can be found for all the fluences and are followed by the growth saturation.
Fig. 7
Fig. 7 Evolution of the linear growth coefficient α as a function of fluence for the total area as well as its left and right parts. The inset shows the ratios of the growth coefficients αL to αR at various fluences, discussed in section 4.
Fig. 8
Fig. 8 Typical SEM graphs of the damage morphologies after different shots at 3.79J/cm2. The laser comes from the right.
Fig. 9
Fig. 9 AFM scan on a damage site of the grating sample. Top: section analysis. Bottom left: two-dimensional view. Bottom right: spectrum.
Fig. 10
Fig. 10 Electric field | E | 2 / | E 0 | 2 distribution of the MLDG with a damage site of 1200nm × 100nm. Laser comes from the right with an incident angle of 70°.
Fig. 11
Fig. 11 Electric field | E | 2 / | E 0 | 2 distribution along the x direction on grating ridges (blue line) and in the second SiO2/HfO2 interface (red line) marked by arrows in Fig. 10. (a) Pristine grating; (b) Damage condition. As only the intensity in the material was considered, the intensity outside the grating ridge was set to zero.
Fig. 12
Fig. 12 Electric field | E | 2 / | E 0 | 2 distributions along the z direction on grating ridges and in the second SiO2/HfO2 interface. They are through the intersection of two blue arrows and two red arrows marked in Fig. 10, respectively. (a) Pristine grating; (b) Damage condition. As only the intensity in the material was considered, the intensity outside the grating ridge was set to zero.
Fig. 13
Fig. 13 (a) Contours of the normalized intensity on the grating surface. The blue dashed line is the z direction and the red thick line is the x direction. (b) Intensity distribution along the axes marked in (a). The dashed lines are the product of the pristine intensity and the EFE factor K, which represents the intensity distributions modulated by the damage site. The intensity in (b) is normalized to the peak intensity of the pristine grating.

Equations (3)

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S( n )=α×n+ S 0
K L / K R 1.75
α L / α R K L / K R

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