Abstract

A systematic study of few-cycle pulse laser induced damage threshold (LIDT) determination was performed for commercially-available ultra-broadband optics, (i.e. chirped mirrors, silver mirrors, beamsplitters, etc.) in vacuum and in air, for single and multi-pulse regime (S-on-1). Multi-pulse damage morphology at fluences below the single-pulse LIDT was studied in order to investigate the mechanisms leading to the onset of damage. Stark morphological contrast was observed between multi-pulse damage sites formed in air versus those in vacuum. One effect of vacuum testing compared to air included suppression of laser-induced periodic surface structures (LIPSS) formation, possibly influenced by a reduced presence of damage debris. Another effect of vacuum was occasional lowering of LIDT, which appears to be due to the stress-strain performance of the coating design during laser irradiation and under the external stress of vacuum ambience. A fused silica substrate is also examined, and a non-LIPSS nanostructuring is observed on the surface. Possible mechanisms are discussed.

© 2016 Optical Society of America

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    [Crossref]
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    [Crossref]
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    [Crossref]
  19. M. Csete, O. Marti, and Z. Bor, “Laser-induced periodic surface structures on different poly-carbonate films,” Appl. Phys. A 73, 521–526 (2001).
    [Crossref]
  20. M. Huang, F. Zhao, Y. Cheng, N. Xu, and Z. Xu, “Origin of laser-induced near-subwavelength ripples: Interference between surface plasmons and incident laser,” ACS Nano 3, 4062–4070 (2009).
    [Crossref] [PubMed]
  21. D. R. Austin, K. R. Kafka, Y. H. Lai, Z. Wang, K. Zhang, H. Li, C. I. Blaga, Y. Y. Allen, L. F. DiMauro, and E. A. Chowdhury, “High spatial frequency laser induced periodic surface structure formation in germanium by mid-ir femtosecond pulses,” J. Appl. Phys. 120, 143103 (2016).
    [Crossref]
  22. K. Kafka, D. Austin, H. Li, A. Yi, J. Cheng, and E. Chowdhury, “Time-resolved measurement of single pulse femtosecond laser-induced periodic surface structure formation induced by a pre-fabricated surface groove,” Opt. Express 23, 19432–19441 (2015).
    [Crossref] [PubMed]
  23. J. P. McDonald, V. R. Mistry, K. E. Ray, S. M. Yalisove, J. A. Nees, and N. R. Moody, “Femtosecond-laser-induced delamination and blister formation in thermal oxide films on silicon (100),” Appl. Phys. Lett. 88, 153121 (2006).
    [Crossref]
  24. 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, 15532–15544 (2015).
    [Crossref] [PubMed]
  25. J. Bonse, J. Krüger, S. Höhm, and A. Rosenfeld, “Femtosecond laser-induced periodic surface structures,” J. Laser Appl. 24, 042006 (2012).
    [Crossref]
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    [Crossref]
  27. L. P. R. Ramirez, M. Heinrich, S. Richter, F. Dreisow, R. Keil, A. V. Korovin, U. Peschel, S. Nolte, and A. Tünnermann, “Tuning the structural properties of femtosecond-laser-induced nanogratings,” Appl. Phys. A 100, 1–6 (2010).
    [Crossref]

2016 (3)

C. S. R. Nathala, A. Ajami, W. Husinsky, B. Farooq, S. I. Kudryashov, A. Daskalova, I. Bliznakova, and A. Assion, “Ultrashort laser pulse ablation of copper, silicon and gelatin: effect of the pulse duration on the ablation thresholds and the incubation coefficients,” Appl. Phys. A 122, 107 (2016).
[Crossref]

J. Bonse, S. Höhm, S. V. Kirner, A. Rosenfeld, and J. Kruger, “Laser-induced periodic surface structures - a scientific evergreen,” IEEE J. Sel. Top. Quantum Phys. PP, 1 (2016).
[Crossref]

D. R. Austin, K. R. Kafka, Y. H. Lai, Z. Wang, K. Zhang, H. Li, C. I. Blaga, Y. Y. Allen, L. F. DiMauro, and E. A. Chowdhury, “High spatial frequency laser induced periodic surface structure formation in germanium by mid-ir femtosecond pulses,” J. Appl. Phys. 120, 143103 (2016).
[Crossref]

2015 (3)

K. Kafka, D. Austin, H. Li, A. Yi, J. Cheng, and E. Chowdhury, “Time-resolved measurement of single pulse femtosecond laser-induced periodic surface structure formation induced by a pre-fabricated surface groove,” Opt. Express 23, 19432–19441 (2015).
[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, 15532–15544 (2015).
[Crossref] [PubMed]

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

2014 (1)

B. E. Schmidt, N. Thiré, M. Boivin, A. Laramée, F. Poitras, G. Lebrun, T. Ozaki, H. Ibrahim, and F. Légaré, “Frequency domain optical parametric amplification,” Nat. Commun. 5, 3643 (2014).
[Crossref] [PubMed]

2013 (2)

A. Schiffrin, T. Paasch-Colberg, N. Karpowicz, V. Apalkov, D. Gerster, S. Mühlbrandt, M. Korbman, J. Reichert, M. Schultze, S. Holzner, and et al., “Optical-field-induced current in dielectrics,” Nature 493, 70–74 (2013).
[Crossref]

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, 26341–26351 (2013).
[Crossref] [PubMed]

2012 (2)

J. A. Wheeler, A. Borot, S. Monchocé, H. Vincenti, A. Ricci, A. Malvache, R. Lopez-Martens, and F. Quéré, “Attosecond lighthouses from plasma mirrors,” Nature Photon. textbf 6, 829–833 (2012).
[Crossref]

J. Bonse, J. Krüger, S. Höhm, and A. Rosenfeld, “Femtosecond laser-induced periodic surface structures,” J. Laser Appl. 24, 042006 (2012).
[Crossref]

2011 (2)

I. B. Angelov, A. von Conta, S. A. Trushin, Z. Major, S. Karsch, F. Krausz, and V. Pervak, “Investigation of the laser-induced damage of dispersive coatings,” Proc. SPIE 8190, 81900B (2011).
[Crossref]

D. N. Nguyen, L. A. Emmert, P. Schwoebel, D. Patel, C. S. Menoni, M. Shinn, and W. Rudolph, “Femtosecond pulse damage thresholds of dielectric coatings in vacuum,” Opt. Express 19, 5690–5697 (2011).
[Crossref] [PubMed]

2010 (2)

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

L. P. R. Ramirez, M. Heinrich, S. Richter, F. Dreisow, R. Keil, A. V. Korovin, U. Peschel, S. Nolte, and A. Tünnermann, “Tuning the structural properties of femtosecond-laser-induced nanogratings,” Appl. Phys. A 100, 1–6 (2010).
[Crossref]

2009 (3)

M. Huang, F. Zhao, Y. Cheng, N. Xu, and Z. Xu, “Origin of laser-induced near-subwavelength ripples: Interference between surface plasmons and incident laser,” ACS Nano 3, 4062–4070 (2009).
[Crossref] [PubMed]

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

F. Krausz, “Attosecond Physics,” Rev. Mod. Phys. 81, 163 (2009).
[Crossref]

2006 (1)

J. P. McDonald, V. R. Mistry, K. E. Ray, S. M. Yalisove, J. A. Nees, and N. R. Moody, “Femtosecond-laser-induced delamination and blister formation in thermal oxide films on silicon (100),” Appl. Phys. Lett. 88, 153121 (2006).
[Crossref]

2005 (2)

C. Hnatovsky, R. S. Taylor, P. P. Rajeev, E. Simova, V. R. Bhardwaj, D. M. Rayner, and P. B. Corkum, “Pulse duration dependence of femtosecond-laser-fabricated nanogratings in fused silica,” Appl. Phys. Letters 87, 014104 (2005).
[Crossref]

M. Mero, B. Clapp, J. C. Jasapara, W. Rudolph, D. Ristau, K. Starke, J. Krüger, S. Martin, and W. Kautek, “On the damage behavior of dielectric films when illuminated with multiple femtosecond laser pulses,” Opt. Eng. 44, 051107 (2005).
[Crossref]

2001 (1)

M. Csete, O. Marti, and Z. Bor, “Laser-induced periodic surface structures on different poly-carbonate films,” Appl. Phys. A 73, 521–526 (2001).
[Crossref]

1999 (2)

A. Rosenfeld, M. Lorenz, R. Stoian, and D. Ashkenasi, “Ultrashort-laser-pulse damage threshold of transparent materials and the role of incubation,” Appl. Phys. A 69, S373–S376 (1999).
[Crossref]

M. Lenzner, J. Krüger, W. Kautek, and F. Krausz, “Incubation of laser ablation in fused silica with 5 - fs pulses,” Appl. Phys. A 69, 465–466 (1999).
[Crossref]

1998 (1)

M. Lenzner, J. Krüger, S. Sartania, Z. Cheng, C. Spielmann, G. Mourou, W. Kautek, and F. Krausz, “Femtosecond Optical Breakdown in Dielectrics,” Phys. Rev. Lett. 80, 4076–4079 (1998).
[Crossref]

1994 (1)

J. Becker and A. Bernhardt, “ISO 11254: an international standard for the determination of the laser-induced damage threshold,”, Proc. SPIE 2114, 703–713 (1994).
[Crossref]

1983 (1)

J. E. Sipe, J. F. Young, J. S. Preston, and H. M. van Driel, “Laser-induced periodic surface structure. i. theory,” Phys. Rev. B 27, 1141–1154 (1983).
[Crossref]

Ahmad, I.

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Ajami, A.

C. S. R. Nathala, A. Ajami, W. Husinsky, B. Farooq, S. I. Kudryashov, A. Daskalova, I. Bliznakova, and A. Assion, “Ultrashort laser pulse ablation of copper, silicon and gelatin: effect of the pulse duration on the ablation thresholds and the incubation coefficients,” Appl. Phys. A 122, 107 (2016).
[Crossref]

Alessi, D. A.

Allen, Y. Y.

D. R. Austin, K. R. Kafka, Y. H. Lai, Z. Wang, K. Zhang, H. Li, C. I. Blaga, Y. Y. Allen, L. F. DiMauro, and E. A. Chowdhury, “High spatial frequency laser induced periodic surface structure formation in germanium by mid-ir femtosecond pulses,” J. Appl. Phys. 120, 143103 (2016).
[Crossref]

Amiranoff, F.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Angelov, I. B.

I. B. Angelov, A. von Conta, S. A. Trushin, Z. Major, S. Karsch, F. Krausz, and V. Pervak, “Investigation of the laser-induced damage of dispersive coatings,” Proc. SPIE 8190, 81900B (2011).
[Crossref]

Apalkov, V.

A. Schiffrin, T. Paasch-Colberg, N. Karpowicz, V. Apalkov, D. Gerster, S. Mühlbrandt, M. Korbman, J. Reichert, M. Schultze, S. Holzner, and et al., “Optical-field-induced current in dielectrics,” Nature 493, 70–74 (2013).
[Crossref]

Apolonski, A.

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Ashkenasi, D.

A. Rosenfeld, M. Lorenz, R. Stoian, and D. Ashkenasi, “Ultrashort-laser-pulse damage threshold of transparent materials and the role of incubation,” Appl. Phys. A 69, S373–S376 (1999).
[Crossref]

Assion, A.

C. S. R. Nathala, A. Ajami, W. Husinsky, B. Farooq, S. I. Kudryashov, A. Daskalova, I. Bliznakova, and A. Assion, “Ultrashort laser pulse ablation of copper, silicon and gelatin: effect of the pulse duration on the ablation thresholds and the incubation coefficients,” Appl. Phys. A 122, 107 (2016).
[Crossref]

Audebert, P.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Austin, D.

Austin, D. R.

D. R. Austin, K. R. Kafka, Y. H. Lai, Z. Wang, K. Zhang, H. Li, C. I. Blaga, Y. Y. Allen, L. F. DiMauro, and E. A. Chowdhury, “High spatial frequency laser induced periodic surface structure formation in germanium by mid-ir femtosecond pulses,” J. Appl. Phys. 120, 143103 (2016).
[Crossref]

Badarau, D.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Becker, J.

J. Becker and A. Bernhardt, “ISO 11254: an international standard for the determination of the laser-induced damage threshold,”, Proc. SPIE 2114, 703–713 (1994).
[Crossref]

Bernhardt, A.

J. Becker and A. Bernhardt, “ISO 11254: an international standard for the determination of the laser-induced damage threshold,”, Proc. SPIE 2114, 703–713 (1994).
[Crossref]

Bhardwaj, V. R.

C. Hnatovsky, R. S. Taylor, P. P. Rajeev, E. Simova, V. R. Bhardwaj, D. M. Rayner, and P. B. Corkum, “Pulse duration dependence of femtosecond-laser-fabricated nanogratings in fused silica,” Appl. Phys. Letters 87, 014104 (2005).
[Crossref]

Blaga, C. I.

D. R. Austin, K. R. Kafka, Y. H. Lai, Z. Wang, K. Zhang, H. Li, C. I. Blaga, Y. Y. Allen, L. F. DiMauro, and E. A. Chowdhury, “High spatial frequency laser induced periodic surface structure formation in germanium by mid-ir femtosecond pulses,” J. Appl. Phys. 120, 143103 (2016).
[Crossref]

Bliznakova, I.

C. S. R. Nathala, A. Ajami, W. Husinsky, B. Farooq, S. I. Kudryashov, A. Daskalova, I. Bliznakova, and A. Assion, “Ultrashort laser pulse ablation of copper, silicon and gelatin: effect of the pulse duration on the ablation thresholds and the incubation coefficients,” Appl. Phys. A 122, 107 (2016).
[Crossref]

Boivin, M.

B. E. Schmidt, N. Thiré, M. Boivin, A. Laramée, F. Poitras, G. Lebrun, T. Ozaki, H. Ibrahim, and F. Légaré, “Frequency domain optical parametric amplification,” Nat. Commun. 5, 3643 (2014).
[Crossref] [PubMed]

Bonse, J.

J. Bonse, S. Höhm, S. V. Kirner, A. Rosenfeld, and J. Kruger, “Laser-induced periodic surface structures - a scientific evergreen,” IEEE J. Sel. Top. Quantum Phys. PP, 1 (2016).
[Crossref]

J. Bonse, J. Krüger, S. Höhm, and A. Rosenfeld, “Femtosecond laser-induced periodic surface structures,” J. Laser Appl. 24, 042006 (2012).
[Crossref]

Bor, Z.

M. Csete, O. Marti, and Z. Bor, “Laser-induced periodic surface structures on different poly-carbonate films,” Appl. Phys. A 73, 521–526 (2001).
[Crossref]

Borot, A.

J. A. Wheeler, A. Borot, S. Monchocé, H. Vincenti, A. Ricci, A. Malvache, R. Lopez-Martens, and F. Quéré, “Attosecond lighthouses from plasma mirrors,” Nature Photon. textbf 6, 829–833 (2012).
[Crossref]

Boudenne, J.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Britten, J. A.

Carr, C. W.

Chambaret, J.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Chambaret, J.-P.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Chekhlov, O.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Cheng, J.

Cheng, Y.

M. Huang, F. Zhao, Y. Cheng, N. Xu, and Z. Xu, “Origin of laser-induced near-subwavelength ripples: Interference between surface plasmons and incident laser,” ACS Nano 3, 4062–4070 (2009).
[Crossref] [PubMed]

Cheng, Z.

M. Lenzner, J. Krüger, S. Sartania, Z. Cheng, C. Spielmann, G. Mourou, W. Kautek, and F. Krausz, “Femtosecond Optical Breakdown in Dielectrics,” Phys. Rev. Lett. 80, 4076–4079 (1998).
[Crossref]

Cheriaux, G.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Chériaux, G.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Chowdhury, E.

Chowdhury, E. A.

D. R. Austin, K. R. Kafka, Y. H. Lai, Z. Wang, K. Zhang, H. Li, C. I. Blaga, Y. Y. Allen, L. F. DiMauro, and E. A. Chowdhury, “High spatial frequency laser induced periodic surface structure formation in germanium by mid-ir femtosecond pulses,” J. Appl. Phys. 120, 143103 (2016).
[Crossref]

Clapp, B.

M. Mero, B. Clapp, J. C. Jasapara, W. Rudolph, D. Ristau, K. Starke, J. Krüger, S. Martin, and W. Kautek, “On the damage behavior of dielectric films when illuminated with multiple femtosecond laser pulses,” Opt. Eng. 44, 051107 (2005).
[Crossref]

Collier, J.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Corkum, P. B.

C. Hnatovsky, R. S. Taylor, P. P. Rajeev, E. Simova, V. R. Bhardwaj, D. M. Rayner, and P. B. Corkum, “Pulse duration dependence of femtosecond-laser-fabricated nanogratings in fused silica,” Appl. Phys. Letters 87, 014104 (2005).
[Crossref]

Cross, D. A.

Csete, M.

M. Csete, O. Marti, and Z. Bor, “Laser-induced periodic surface structures on different poly-carbonate films,” Appl. Phys. A 73, 521–526 (2001).
[Crossref]

Dabu, R.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Daskalova, A.

C. S. R. Nathala, A. Ajami, W. Husinsky, B. Farooq, S. I. Kudryashov, A. Daskalova, I. Bliznakova, and A. Assion, “Ultrashort laser pulse ablation of copper, silicon and gelatin: effect of the pulse duration on the ablation thresholds and the incubation coefficients,” Appl. Phys. A 122, 107 (2016).
[Crossref]

DiMauro, L. F.

D. R. Austin, K. R. Kafka, Y. H. Lai, Z. Wang, K. Zhang, H. Li, C. I. Blaga, Y. Y. Allen, L. F. DiMauro, and E. A. Chowdhury, “High spatial frequency laser induced periodic surface structure formation in germanium by mid-ir femtosecond pulses,” J. Appl. Phys. 120, 143103 (2016).
[Crossref]

Dombi, P.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Donne, A. M.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Dreisow, F.

L. P. R. Ramirez, M. Heinrich, S. Richter, F. Dreisow, R. Keil, A. V. Korovin, U. Peschel, S. Nolte, and A. Tünnermann, “Tuning the structural properties of femtosecond-laser-induced nanogratings,” Appl. Phys. A 100, 1–6 (2010).
[Crossref]

Druon, F.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Emmert, L. A.

Ertel, K.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Fair, J. E.

Farooq, B.

C. S. R. Nathala, A. Ajami, W. Husinsky, B. Farooq, S. I. Kudryashov, A. Daskalova, I. Bliznakova, and A. Assion, “Ultrashort laser pulse ablation of copper, silicon and gelatin: effect of the pulse duration on the ablation thresholds and the incubation coefficients,” Appl. Phys. A 122, 107 (2016).
[Crossref]

Fournet, D.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Fréneaux, a.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Fülöp, J. A.

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Georges, P.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Gerster, D.

A. Schiffrin, T. Paasch-Colberg, N. Karpowicz, V. Apalkov, D. Gerster, S. Mühlbrandt, M. Korbman, J. Reichert, M. Schultze, S. Holzner, and et al., “Optical-field-induced current in dielectrics,” Nature 493, 70–74 (2013).
[Crossref]

Giambruno, F.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Gourdin, W. H.

Guss, G.

Hackel, R. P.

Haefner, C.

Hebling, J.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Hein, J.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Heinrich, M.

L. P. R. Ramirez, M. Heinrich, S. Richter, F. Dreisow, R. Keil, A. V. Korovin, U. Peschel, S. Nolte, and A. Tünnermann, “Tuning the structural properties of femtosecond-laser-induced nanogratings,” Appl. Phys. A 100, 1–6 (2010).
[Crossref]

Henig, A.

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Hernandez-Gomez, C.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Hnatovsky, C.

C. Hnatovsky, R. S. Taylor, P. P. Rajeev, E. Simova, V. R. Bhardwaj, D. M. Rayner, and P. B. Corkum, “Pulse duration dependence of femtosecond-laser-fabricated nanogratings in fused silica,” Appl. Phys. Letters 87, 014104 (2005).
[Crossref]

Höhm, S.

J. Bonse, S. Höhm, S. V. Kirner, A. Rosenfeld, and J. Kruger, “Laser-induced periodic surface structures - a scientific evergreen,” IEEE J. Sel. Top. Quantum Phys. PP, 1 (2016).
[Crossref]

J. Bonse, J. Krüger, S. Höhm, and A. Rosenfeld, “Femtosecond laser-induced periodic surface structures,” J. Laser Appl. 24, 042006 (2012).
[Crossref]

Holzner, S.

A. Schiffrin, T. Paasch-Colberg, N. Karpowicz, V. Apalkov, D. Gerster, S. Mühlbrandt, M. Korbman, J. Reichert, M. Schultze, S. Holzner, and et al., “Optical-field-induced current in dielectrics,” Nature 493, 70–74 (2013).
[Crossref]

Hooker, C.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Hörlein, R.

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Huang, M.

M. Huang, F. Zhao, Y. Cheng, N. Xu, and Z. Xu, “Origin of laser-induced near-subwavelength ripples: Interference between surface plasmons and incident laser,” ACS Nano 3, 4062–4070 (2009).
[Crossref] [PubMed]

Husinsky, W.

C. S. R. Nathala, A. Ajami, W. Husinsky, B. Farooq, S. I. Kudryashov, A. Daskalova, I. Bliznakova, and A. Assion, “Ultrashort laser pulse ablation of copper, silicon and gelatin: effect of the pulse duration on the ablation thresholds and the incubation coefficients,” Appl. Phys. A 122, 107 (2016).
[Crossref]

Ibrahim, H.

B. E. Schmidt, N. Thiré, M. Boivin, A. Laramée, F. Poitras, G. Lebrun, T. Ozaki, H. Ibrahim, and F. Légaré, “Frequency domain optical parametric amplification,” Nat. Commun. 5, 3643 (2014).
[Crossref] [PubMed]

Jasapara, J. C.

M. Mero, B. Clapp, J. C. Jasapara, W. Rudolph, D. Ristau, K. Starke, J. Krüger, S. Martin, and W. Kautek, “On the damage behavior of dielectric films when illuminated with multiple femtosecond laser pulses,” Opt. Eng. 44, 051107 (2005).
[Crossref]

Kafka, K.

Kafka, K. R.

D. R. Austin, K. R. Kafka, Y. H. Lai, Z. Wang, K. Zhang, H. Li, C. I. Blaga, Y. Y. Allen, L. F. DiMauro, and E. A. Chowdhury, “High spatial frequency laser induced periodic surface structure formation in germanium by mid-ir femtosecond pulses,” J. Appl. Phys. 120, 143103 (2016).
[Crossref]

Karpowicz, N.

A. Schiffrin, T. Paasch-Colberg, N. Karpowicz, V. Apalkov, D. Gerster, S. Mühlbrandt, M. Korbman, J. Reichert, M. Schultze, S. Holzner, and et al., “Optical-field-induced current in dielectrics,” Nature 493, 70–74 (2013).
[Crossref]

Karsch, S.

I. B. Angelov, A. von Conta, S. A. Trushin, Z. Major, S. Karsch, F. Krausz, and V. Pervak, “Investigation of the laser-induced damage of dispersive coatings,” Proc. SPIE 8190, 81900B (2011).
[Crossref]

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Kautek, W.

M. Mero, B. Clapp, J. C. Jasapara, W. Rudolph, D. Ristau, K. Starke, J. Krüger, S. Martin, and W. Kautek, “On the damage behavior of dielectric films when illuminated with multiple femtosecond laser pulses,” Opt. Eng. 44, 051107 (2005).
[Crossref]

M. Lenzner, J. Krüger, W. Kautek, and F. Krausz, “Incubation of laser ablation in fused silica with 5 - fs pulses,” Appl. Phys. A 69, 465–466 (1999).
[Crossref]

M. Lenzner, J. Krüger, S. Sartania, Z. Cheng, C. Spielmann, G. Mourou, W. Kautek, and F. Krausz, “Femtosecond Optical Breakdown in Dielectrics,” Phys. Rev. Lett. 80, 4076–4079 (1998).
[Crossref]

Keil, R.

L. P. R. Ramirez, M. Heinrich, S. Richter, F. Dreisow, R. Keil, A. V. Korovin, U. Peschel, S. Nolte, and A. Tünnermann, “Tuning the structural properties of femtosecond-laser-induced nanogratings,” Appl. Phys. A 100, 1–6 (2010).
[Crossref]

Kirner, S. V.

J. Bonse, S. Höhm, S. V. Kirner, A. Rosenfeld, and J. Kruger, “Laser-induced periodic surface structures - a scientific evergreen,” IEEE J. Sel. Top. Quantum Phys. PP, 1 (2016).
[Crossref]

Klingebiel, S.

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Korbman, M.

A. Schiffrin, T. Paasch-Colberg, N. Karpowicz, V. Apalkov, D. Gerster, S. Mühlbrandt, M. Korbman, J. Reichert, M. Schultze, S. Holzner, and et al., “Optical-field-induced current in dielectrics,” Nature 493, 70–74 (2013).
[Crossref]

Korn, G.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Korovin, A. V.

L. P. R. Ramirez, M. Heinrich, S. Richter, F. Dreisow, R. Keil, A. V. Korovin, U. Peschel, S. Nolte, and A. Tünnermann, “Tuning the structural properties of femtosecond-laser-induced nanogratings,” Appl. Phys. A 100, 1–6 (2010).
[Crossref]

Krausz, F.

I. B. Angelov, A. von Conta, S. A. Trushin, Z. Major, S. Karsch, F. Krausz, and V. Pervak, “Investigation of the laser-induced damage of dispersive coatings,” Proc. SPIE 8190, 81900B (2011).
[Crossref]

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
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F. Krausz, “Attosecond Physics,” Rev. Mod. Phys. 81, 163 (2009).
[Crossref]

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
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M. Lenzner, J. Krüger, W. Kautek, and F. Krausz, “Incubation of laser ablation in fused silica with 5 - fs pulses,” Appl. Phys. A 69, 465–466 (1999).
[Crossref]

M. Lenzner, J. Krüger, S. Sartania, Z. Cheng, C. Spielmann, G. Mourou, W. Kautek, and F. Krausz, “Femtosecond Optical Breakdown in Dielectrics,” Phys. Rev. Lett. 80, 4076–4079 (1998).
[Crossref]

Kruber, S.

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
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Kruger, J.

J. Bonse, S. Höhm, S. V. Kirner, A. Rosenfeld, and J. Kruger, “Laser-induced periodic surface structures - a scientific evergreen,” IEEE J. Sel. Top. Quantum Phys. PP, 1 (2016).
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Krüger, J.

J. Bonse, J. Krüger, S. Höhm, and A. Rosenfeld, “Femtosecond laser-induced periodic surface structures,” J. Laser Appl. 24, 042006 (2012).
[Crossref]

M. Mero, B. Clapp, J. C. Jasapara, W. Rudolph, D. Ristau, K. Starke, J. Krüger, S. Martin, and W. Kautek, “On the damage behavior of dielectric films when illuminated with multiple femtosecond laser pulses,” Opt. Eng. 44, 051107 (2005).
[Crossref]

M. Lenzner, J. Krüger, W. Kautek, and F. Krausz, “Incubation of laser ablation in fused silica with 5 - fs pulses,” Appl. Phys. A 69, 465–466 (1999).
[Crossref]

M. Lenzner, J. Krüger, S. Sartania, Z. Cheng, C. Spielmann, G. Mourou, W. Kautek, and F. Krausz, “Femtosecond Optical Breakdown in Dielectrics,” Phys. Rev. Lett. 80, 4076–4079 (1998).
[Crossref]

Kudryashov, S. I.

C. S. R. Nathala, A. Ajami, W. Husinsky, B. Farooq, S. I. Kudryashov, A. Daskalova, I. Bliznakova, and A. Assion, “Ultrashort laser pulse ablation of copper, silicon and gelatin: effect of the pulse duration on the ablation thresholds and the incubation coefficients,” Appl. Phys. A 122, 107 (2016).
[Crossref]

Lai, Y. H.

D. R. Austin, K. R. Kafka, Y. H. Lai, Z. Wang, K. Zhang, H. Li, C. I. Blaga, Y. Y. Allen, L. F. DiMauro, and E. A. Chowdhury, “High spatial frequency laser induced periodic surface structure formation in germanium by mid-ir femtosecond pulses,” J. Appl. Phys. 120, 143103 (2016).
[Crossref]

Laramée, A.

B. E. Schmidt, N. Thiré, M. Boivin, A. Laramée, F. Poitras, G. Lebrun, T. Ozaki, H. Ibrahim, and F. Légaré, “Frequency domain optical parametric amplification,” Nat. Commun. 5, 3643 (2014).
[Crossref] [PubMed]

Le Blanc, C.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Lebrun, G.

B. E. Schmidt, N. Thiré, M. Boivin, A. Laramée, F. Poitras, G. Lebrun, T. Ozaki, H. Ibrahim, and F. Légaré, “Frequency domain optical parametric amplification,” Nat. Commun. 5, 3643 (2014).
[Crossref] [PubMed]

Lecherbourg, L.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Leconte, F.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Légaré, F.

B. E. Schmidt, N. Thiré, M. Boivin, A. Laramée, F. Poitras, G. Lebrun, T. Ozaki, H. Ibrahim, and F. Légaré, “Frequency domain optical parametric amplification,” Nat. Commun. 5, 3643 (2014).
[Crossref] [PubMed]

Lenzner, M.

M. Lenzner, J. Krüger, W. Kautek, and F. Krausz, “Incubation of laser ablation in fused silica with 5 - fs pulses,” Appl. Phys. A 69, 465–466 (1999).
[Crossref]

M. Lenzner, J. Krüger, S. Sartania, Z. Cheng, C. Spielmann, G. Mourou, W. Kautek, and F. Krausz, “Femtosecond Optical Breakdown in Dielectrics,” Phys. Rev. Lett. 80, 4076–4079 (1998).
[Crossref]

Li, H.

D. R. Austin, K. R. Kafka, Y. H. Lai, Z. Wang, K. Zhang, H. Li, C. I. Blaga, Y. Y. Allen, L. F. DiMauro, and E. A. Chowdhury, “High spatial frequency laser induced periodic surface structure formation in germanium by mid-ir femtosecond pulses,” J. Appl. Phys. 120, 143103 (2016).
[Crossref]

K. Kafka, D. Austin, H. Li, A. Yi, J. Cheng, and E. Chowdhury, “Time-resolved measurement of single pulse femtosecond laser-induced periodic surface structure formation induced by a pre-fabricated surface groove,” Opt. Express 23, 19432–19441 (2015).
[Crossref] [PubMed]

Lopez-Martens, R.

J. A. Wheeler, A. Borot, S. Monchocé, H. Vincenti, A. Ricci, A. Malvache, R. Lopez-Martens, and F. Quéré, “Attosecond lighthouses from plasma mirrors,” Nature Photon. textbf 6, 829–833 (2012).
[Crossref]

Lorenz, M.

A. Rosenfeld, M. Lorenz, R. Stoian, and D. Ashkenasi, “Ultrashort-laser-pulse damage threshold of transparent materials and the role of incubation,” Appl. Phys. A 69, S373–S376 (1999).
[Crossref]

Luthi, R.

Major, Z.

I. B. Angelov, A. von Conta, S. A. Trushin, Z. Major, S. Karsch, F. Krausz, and V. Pervak, “Investigation of the laser-induced damage of dispersive coatings,” Proc. SPIE 8190, 81900B (2011).
[Crossref]

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Malvache, A.

J. A. Wheeler, A. Borot, S. Monchocé, H. Vincenti, A. Ricci, A. Malvache, R. Lopez-Martens, and F. Quéré, “Attosecond lighthouses from plasma mirrors,” Nature Photon. textbf 6, 829–833 (2012).
[Crossref]

Marti, O.

M. Csete, O. Marti, and Z. Bor, “Laser-induced periodic surface structures on different poly-carbonate films,” Appl. Phys. A 73, 521–526 (2001).
[Crossref]

Martin, P.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Martin, S.

M. Mero, B. Clapp, J. C. Jasapara, W. Rudolph, D. Ristau, K. Starke, J. Krüger, S. Martin, and W. Kautek, “On the damage behavior of dielectric films when illuminated with multiple femtosecond laser pulses,” Opt. Eng. 44, 051107 (2005).
[Crossref]

Mathieu, F.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

McDonald, J. P.

J. P. McDonald, V. R. Mistry, K. E. Ray, S. M. Yalisove, J. A. Nees, and N. R. Moody, “Femtosecond-laser-induced delamination and blister formation in thermal oxide films on silicon (100),” Appl. Phys. Lett. 88, 153121 (2006).
[Crossref]

Mennerat, G.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Menoni, C. S.

Mero, M.

M. Mero, B. Clapp, J. C. Jasapara, W. Rudolph, D. Ristau, K. Starke, J. Krüger, S. Martin, and W. Kautek, “On the damage behavior of dielectric films when illuminated with multiple femtosecond laser pulses,” Opt. Eng. 44, 051107 (2005).
[Crossref]

Metzger, T.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Mistry, V. R.

J. P. McDonald, V. R. Mistry, K. E. Ray, S. M. Yalisove, J. A. Nees, and N. R. Moody, “Femtosecond-laser-induced delamination and blister formation in thermal oxide films on silicon (100),” Appl. Phys. Lett. 88, 153121 (2006).
[Crossref]

Monchocé, S.

J. A. Wheeler, A. Borot, S. Monchocé, H. Vincenti, A. Ricci, A. Malvache, R. Lopez-Martens, and F. Quéré, “Attosecond lighthouses from plasma mirrors,” Nature Photon. textbf 6, 829–833 (2012).
[Crossref]

Monot, P.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Moody, N. R.

J. P. McDonald, V. R. Mistry, K. E. Ray, S. M. Yalisove, J. A. Nees, and N. R. Moody, “Femtosecond-laser-induced delamination and blister formation in thermal oxide films on silicon (100),” Appl. Phys. Lett. 88, 153121 (2006).
[Crossref]

Mourou, G.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

M. Lenzner, J. Krüger, S. Sartania, Z. Cheng, C. Spielmann, G. Mourou, W. Kautek, and F. Krausz, “Femtosecond Optical Breakdown in Dielectrics,” Phys. Rev. Lett. 80, 4076–4079 (1998).
[Crossref]

Mühlbrandt, S.

A. Schiffrin, T. Paasch-Colberg, N. Karpowicz, V. Apalkov, D. Gerster, S. Mühlbrandt, M. Korbman, J. Reichert, M. Schultze, S. Holzner, and et al., “Optical-field-induced current in dielectrics,” Nature 493, 70–74 (2013).
[Crossref]

Nathala, C. S. R.

C. S. R. Nathala, A. Ajami, W. Husinsky, B. Farooq, S. I. Kudryashov, A. Daskalova, I. Bliznakova, and A. Assion, “Ultrashort laser pulse ablation of copper, silicon and gelatin: effect of the pulse duration on the ablation thresholds and the incubation coefficients,” Appl. Phys. A 122, 107 (2016).
[Crossref]

Nees, J. A.

J. P. McDonald, V. R. Mistry, K. E. Ray, S. M. Yalisove, J. A. Nees, and N. R. Moody, “Femtosecond-laser-induced delamination and blister formation in thermal oxide films on silicon (100),” Appl. Phys. Lett. 88, 153121 (2006).
[Crossref]

Negres, R. A.

Nguyen, D. N.

Nickles, P.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Nissen, J.

Nolte, S.

L. P. R. Ramirez, M. Heinrich, S. Richter, F. Dreisow, R. Keil, A. V. Korovin, U. Peschel, S. Nolte, and A. Tünnermann, “Tuning the structural properties of femtosecond-laser-induced nanogratings,” Appl. Phys. A 100, 1–6 (2010).
[Crossref]

Osterhoff, J.

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Osvay, K.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Ozaki, T.

B. E. Schmidt, N. Thiré, M. Boivin, A. Laramée, F. Poitras, G. Lebrun, T. Ozaki, H. Ibrahim, and F. Légaré, “Frequency domain optical parametric amplification,” Nat. Commun. 5, 3643 (2014).
[Crossref] [PubMed]

Paasch-Colberg, T.

A. Schiffrin, T. Paasch-Colberg, N. Karpowicz, V. Apalkov, D. Gerster, S. Mühlbrandt, M. Korbman, J. Reichert, M. Schultze, S. Holzner, and et al., “Optical-field-induced current in dielectrics,” Nature 493, 70–74 (2013).
[Crossref]

Paillard, J.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Papadopoulos, D.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Patel, D.

Pellegrina, A.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Pervak, V.

I. B. Angelov, A. von Conta, S. A. Trushin, Z. Major, S. Karsch, F. Krausz, and V. Pervak, “Investigation of the laser-induced damage of dispersive coatings,” Proc. SPIE 8190, 81900B (2011).
[Crossref]

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Peschel, U.

L. P. R. Ramirez, M. Heinrich, S. Richter, F. Dreisow, R. Keil, A. V. Korovin, U. Peschel, S. Nolte, and A. Tünnermann, “Tuning the structural properties of femtosecond-laser-induced nanogratings,” Appl. Phys. A 100, 1–6 (2010).
[Crossref]

Pina, M.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Poitras, F.

B. E. Schmidt, N. Thiré, M. Boivin, A. Laramée, F. Poitras, G. Lebrun, T. Ozaki, H. Ibrahim, and F. Légaré, “Frequency domain optical parametric amplification,” Nat. Commun. 5, 3643 (2014).
[Crossref] [PubMed]

Poole, P.

Popp, A.

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Preston, J. S.

J. E. Sipe, J. F. Young, J. S. Preston, and H. M. van Driel, “Laser-induced periodic surface structure. i. theory,” Phys. Rev. B 27, 1141–1154 (1983).
[Crossref]

Quéré, F.

J. A. Wheeler, A. Borot, S. Monchocé, H. Vincenti, A. Ricci, A. Malvache, R. Lopez-Martens, and F. Quéré, “Attosecond lighthouses from plasma mirrors,” Nature Photon. textbf 6, 829–833 (2012).
[Crossref]

Rajeev, P. P.

C. Hnatovsky, R. S. Taylor, P. P. Rajeev, E. Simova, V. R. Bhardwaj, D. M. Rayner, and P. B. Corkum, “Pulse duration dependence of femtosecond-laser-fabricated nanogratings in fused silica,” Appl. Phys. Letters 87, 014104 (2005).
[Crossref]

Ramirez, L. P. R.

L. P. R. Ramirez, M. Heinrich, S. Richter, F. Dreisow, R. Keil, A. V. Korovin, U. Peschel, S. Nolte, and A. Tünnermann, “Tuning the structural properties of femtosecond-laser-induced nanogratings,” Appl. Phys. A 100, 1–6 (2010).
[Crossref]

Ramirez, P.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Ray, K. E.

J. P. McDonald, V. R. Mistry, K. E. Ray, S. M. Yalisove, J. A. Nees, and N. R. Moody, “Femtosecond-laser-induced delamination and blister formation in thermal oxide films on silicon (100),” Appl. Phys. Lett. 88, 153121 (2006).
[Crossref]

Rayner, D. M.

C. Hnatovsky, R. S. Taylor, P. P. Rajeev, E. Simova, V. R. Bhardwaj, D. M. Rayner, and P. B. Corkum, “Pulse duration dependence of femtosecond-laser-fabricated nanogratings in fused silica,” Appl. Phys. Letters 87, 014104 (2005).
[Crossref]

Reichert, J.

A. Schiffrin, T. Paasch-Colberg, N. Karpowicz, V. Apalkov, D. Gerster, S. Mühlbrandt, M. Korbman, J. Reichert, M. Schultze, S. Holzner, and et al., “Optical-field-induced current in dielectrics,” Nature 493, 70–74 (2013).
[Crossref]

Ricci, A.

J. A. Wheeler, A. Borot, S. Monchocé, H. Vincenti, A. Ricci, A. Malvache, R. Lopez-Martens, and F. Quéré, “Attosecond lighthouses from plasma mirrors,” Nature Photon. textbf 6, 829–833 (2012).
[Crossref]

Richter, S.

L. P. R. Ramirez, M. Heinrich, S. Richter, F. Dreisow, R. Keil, A. V. Korovin, U. Peschel, S. Nolte, and A. Tünnermann, “Tuning the structural properties of femtosecond-laser-induced nanogratings,” Appl. Phys. A 100, 1–6 (2010).
[Crossref]

Ristau, D.

M. Mero, B. Clapp, J. C. Jasapara, W. Rudolph, D. Ristau, K. Starke, J. Krüger, S. Martin, and W. Kautek, “On the damage behavior of dielectric films when illuminated with multiple femtosecond laser pulses,” Opt. Eng. 44, 051107 (2005).
[Crossref]

Rosenfeld, A.

J. Bonse, S. Höhm, S. V. Kirner, A. Rosenfeld, and J. Kruger, “Laser-induced periodic surface structures - a scientific evergreen,” IEEE J. Sel. Top. Quantum Phys. PP, 1 (2016).
[Crossref]

J. Bonse, J. Krüger, S. Höhm, and A. Rosenfeld, “Femtosecond laser-induced periodic surface structures,” J. Laser Appl. 24, 042006 (2012).
[Crossref]

A. Rosenfeld, M. Lorenz, R. Stoian, and D. Ashkenasi, “Ultrashort-laser-pulse damage threshold of transparent materials and the role of incubation,” Appl. Phys. A 69, S373–S376 (1999).
[Crossref]

Rudolph, W.

D. N. Nguyen, L. A. Emmert, P. Schwoebel, D. Patel, C. S. Menoni, M. Shinn, and W. Rudolph, “Femtosecond pulse damage thresholds of dielectric coatings in vacuum,” Opt. Express 19, 5690–5697 (2011).
[Crossref] [PubMed]

M. Mero, B. Clapp, J. C. Jasapara, W. Rudolph, D. Ristau, K. Starke, J. Krüger, S. Martin, and W. Kautek, “On the damage behavior of dielectric films when illuminated with multiple femtosecond laser pulses,” Opt. Eng. 44, 051107 (2005).
[Crossref]

Rus, B.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Sandner, W.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
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Sartania, S.

M. Lenzner, J. Krüger, S. Sartania, Z. Cheng, C. Spielmann, G. Mourou, W. Kautek, and F. Krausz, “Femtosecond Optical Breakdown in Dielectrics,” Phys. Rev. Lett. 80, 4076–4079 (1998).
[Crossref]

Schiffrin, A.

A. Schiffrin, T. Paasch-Colberg, N. Karpowicz, V. Apalkov, D. Gerster, S. Mühlbrandt, M. Korbman, J. Reichert, M. Schultze, S. Holzner, and et al., “Optical-field-induced current in dielectrics,” Nature 493, 70–74 (2013).
[Crossref]

Schmidt, B. E.

B. E. Schmidt, N. Thiré, M. Boivin, A. Laramée, F. Poitras, G. Lebrun, T. Ozaki, H. Ibrahim, and F. Légaré, “Frequency domain optical parametric amplification,” Nat. Commun. 5, 3643 (2014).
[Crossref] [PubMed]

Schultze, M.

A. Schiffrin, T. Paasch-Colberg, N. Karpowicz, V. Apalkov, D. Gerster, S. Mühlbrandt, M. Korbman, J. Reichert, M. Schultze, S. Holzner, and et al., “Optical-field-induced current in dielectrics,” Nature 493, 70–74 (2013).
[Crossref]

Schwoebel, P.

Shinn, M.

Shvets, G.

Siebold, M.

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Simova, E.

C. Hnatovsky, R. S. Taylor, P. P. Rajeev, E. Simova, V. R. Bhardwaj, D. M. Rayner, and P. B. Corkum, “Pulse duration dependence of femtosecond-laser-fabricated nanogratings in fused silica,” Appl. Phys. Letters 87, 014104 (2005).
[Crossref]

Sipe, J. E.

J. E. Sipe, J. F. Young, J. S. Preston, and H. M. van Driel, “Laser-induced periodic surface structure. i. theory,” Phys. Rev. B 27, 1141–1154 (1983).
[Crossref]

Smith, D.

Spielmann, C.

M. Lenzner, J. Krüger, S. Sartania, Z. Cheng, C. Spielmann, G. Mourou, W. Kautek, and F. Krausz, “Femtosecond Optical Breakdown in Dielectrics,” Phys. Rev. Lett. 80, 4076–4079 (1998).
[Crossref]

Stanion, K.

Starke, K.

M. Mero, B. Clapp, J. C. Jasapara, W. Rudolph, D. Ristau, K. Starke, J. Krüger, S. Martin, and W. Kautek, “On the damage behavior of dielectric films when illuminated with multiple femtosecond laser pulses,” Opt. Eng. 44, 051107 (2005).
[Crossref]

Stoian, R.

A. Rosenfeld, M. Lorenz, R. Stoian, and D. Ashkenasi, “Ultrashort-laser-pulse damage threshold of transparent materials and the role of incubation,” Appl. Phys. A 69, S373–S376 (1999).
[Crossref]

Szabó, G.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Taylor, R. S.

C. Hnatovsky, R. S. Taylor, P. P. Rajeev, E. Simova, V. R. Bhardwaj, D. M. Rayner, and P. B. Corkum, “Pulse duration dependence of femtosecond-laser-fabricated nanogratings in fused silica,” Appl. Phys. Letters 87, 014104 (2005).
[Crossref]

Thiré, N.

B. E. Schmidt, N. Thiré, M. Boivin, A. Laramée, F. Poitras, G. Lebrun, T. Ozaki, H. Ibrahim, and F. Légaré, “Frequency domain optical parametric amplification,” Nat. Commun. 5, 3643 (2014).
[Crossref] [PubMed]

Trendafilov, S.

Trushin, S. A.

I. B. Angelov, A. von Conta, S. A. Trushin, Z. Major, S. Karsch, F. Krausz, and V. Pervak, “Investigation of the laser-induced damage of dispersive coatings,” Proc. SPIE 8190, 81900B (2011).
[Crossref]

Trushin, S. A. S.

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Tünnermann, A.

L. P. R. Ramirez, M. Heinrich, S. Richter, F. Dreisow, R. Keil, A. V. Korovin, U. Peschel, S. Nolte, and A. Tünnermann, “Tuning the structural properties of femtosecond-laser-induced nanogratings,” Appl. Phys. A 100, 1–6 (2010).
[Crossref]

Ursescu, D.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Valloton, T.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

van Driel, H. M.

J. E. Sipe, J. F. Young, J. S. Preston, and H. M. van Driel, “Laser-induced periodic surface structure. i. theory,” Phys. Rev. B 27, 1141–1154 (1983).
[Crossref]

Varjú, K.

J.-P. Chambaret, O. Chekhlov, G. Cheriaux, J. Collier, R. Dabu, P. Dombi, A. M. Donne, K. Ertel, P. Georges, J. Hebling, J. Hein, C. Hernandez-Gomez, C. Hooker, S. Karsch, G. Korn, F. Krausz, C. Le Blanc, Z. Major, F. Mathieu, T. Metzger, G. Mourou, P. Nickles, K. Osvay, B. Rus, W. Sandner, G. Szabó, D. Ursescu, and K. Varjú, “Extreme light infrastructure: laser architecture and major challenges,” Proc. SPIE 7721, 77211D (2010).
[Crossref]

Veray, J.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

Vincenti, H.

J. A. Wheeler, A. Borot, S. Monchocé, H. Vincenti, A. Ricci, A. Malvache, R. Lopez-Martens, and F. Quéré, “Attosecond lighthouses from plasma mirrors,” Nature Photon. textbf 6, 829–833 (2012).
[Crossref]

von Conta, A.

I. B. Angelov, A. von Conta, S. A. Trushin, Z. Major, S. Karsch, F. Krausz, and V. Pervak, “Investigation of the laser-induced damage of dispersive coatings,” Proc. SPIE 8190, 81900B (2011).
[Crossref]

Wandt, C.

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Wang, T.-J.

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Wang, Z.

D. R. Austin, K. R. Kafka, Y. H. Lai, Z. Wang, K. Zhang, H. Li, C. I. Blaga, Y. Y. Allen, L. F. DiMauro, and E. A. Chowdhury, “High spatial frequency laser induced periodic surface structure formation in germanium by mid-ir femtosecond pulses,” J. Appl. Phys. 120, 143103 (2016).
[Crossref]

Weingartner, R.

Z. Major, S. A. S. Trushin, I. Ahmad, M. Siebold, C. Wandt, S. Klingebiel, T.-J. Wang, J. A. Fülöp, A. Henig, S. Kruber, R. Weingartner, A. Popp, J. Osterhoff, R. Hörlein, J. Hein, V. Pervak, A. Apolonski, F. Krausz, and S. Karsch, “Basic Concepts and Current Status of the Petawatt Field Synthesizer - A New Approach to Ultrahigh Field Generation,” Rev. Las. Eng. 37, 431–436 (2009).
[Crossref]

Wheeler, J. A.

J. A. Wheeler, A. Borot, S. Monchocé, H. Vincenti, A. Ricci, A. Malvache, R. Lopez-Martens, and F. Quéré, “Attosecond lighthouses from plasma mirrors,” Nature Photon. textbf 6, 829–833 (2012).
[Crossref]

Xu, N.

M. Huang, F. Zhao, Y. Cheng, N. Xu, and Z. Xu, “Origin of laser-induced near-subwavelength ripples: Interference between surface plasmons and incident laser,” ACS Nano 3, 4062–4070 (2009).
[Crossref] [PubMed]

Xu, Z.

M. Huang, F. Zhao, Y. Cheng, N. Xu, and Z. Xu, “Origin of laser-induced near-subwavelength ripples: Interference between surface plasmons and incident laser,” ACS Nano 3, 4062–4070 (2009).
[Crossref] [PubMed]

Yalisove, S. M.

J. P. McDonald, V. R. Mistry, K. E. Ray, S. M. Yalisove, J. A. Nees, and N. R. Moody, “Femtosecond-laser-induced delamination and blister formation in thermal oxide films on silicon (100),” Appl. Phys. Lett. 88, 153121 (2006).
[Crossref]

Yi, A.

Young, J. F.

J. E. Sipe, J. F. Young, J. S. Preston, and H. M. van Driel, “Laser-induced periodic surface structure. i. theory,” Phys. Rev. B 27, 1141–1154 (1983).
[Crossref]

Zhang, K.

D. R. Austin, K. R. Kafka, Y. H. Lai, Z. Wang, K. Zhang, H. Li, C. I. Blaga, Y. Y. Allen, L. F. DiMauro, and E. A. Chowdhury, “High spatial frequency laser induced periodic surface structure formation in germanium by mid-ir femtosecond pulses,” J. Appl. Phys. 120, 143103 (2016).
[Crossref]

Zhao, F.

M. Huang, F. Zhao, Y. Cheng, N. Xu, and Z. Xu, “Origin of laser-induced near-subwavelength ripples: Interference between surface plasmons and incident laser,” ACS Nano 3, 4062–4070 (2009).
[Crossref] [PubMed]

Zou, J.

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

ACS Nano (1)

M. Huang, F. Zhao, Y. Cheng, N. Xu, and Z. Xu, “Origin of laser-induced near-subwavelength ripples: Interference between surface plasmons and incident laser,” ACS Nano 3, 4062–4070 (2009).
[Crossref] [PubMed]

Appl. Phys. A (5)

M. Csete, O. Marti, and Z. Bor, “Laser-induced periodic surface structures on different poly-carbonate films,” Appl. Phys. A 73, 521–526 (2001).
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L. P. R. Ramirez, M. Heinrich, S. Richter, F. Dreisow, R. Keil, A. V. Korovin, U. Peschel, S. Nolte, and A. Tünnermann, “Tuning the structural properties of femtosecond-laser-induced nanogratings,” Appl. Phys. A 100, 1–6 (2010).
[Crossref]

M. Lenzner, J. Krüger, W. Kautek, and F. Krausz, “Incubation of laser ablation in fused silica with 5 - fs pulses,” Appl. Phys. A 69, 465–466 (1999).
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C. S. R. Nathala, A. Ajami, W. Husinsky, B. Farooq, S. I. Kudryashov, A. Daskalova, I. Bliznakova, and A. Assion, “Ultrashort laser pulse ablation of copper, silicon and gelatin: effect of the pulse duration on the ablation thresholds and the incubation coefficients,” Appl. Phys. A 122, 107 (2016).
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A. Rosenfeld, M. Lorenz, R. Stoian, and D. Ashkenasi, “Ultrashort-laser-pulse damage threshold of transparent materials and the role of incubation,” Appl. Phys. A 69, S373–S376 (1999).
[Crossref]

Appl. Phys. Lett. (1)

J. P. McDonald, V. R. Mistry, K. E. Ray, S. M. Yalisove, J. A. Nees, and N. R. Moody, “Femtosecond-laser-induced delamination and blister formation in thermal oxide films on silicon (100),” Appl. Phys. Lett. 88, 153121 (2006).
[Crossref]

Appl. Phys. Letters (1)

C. Hnatovsky, R. S. Taylor, P. P. Rajeev, E. Simova, V. R. Bhardwaj, D. M. Rayner, and P. B. Corkum, “Pulse duration dependence of femtosecond-laser-fabricated nanogratings in fused silica,” Appl. Phys. Letters 87, 014104 (2005).
[Crossref]

High Power Laser Science and Engineering (1)

J. Zou, C. Le Blanc, D. Papadopoulos, G. Chériaux, P. Georges, G. Mennerat, F. Druon, L. Lecherbourg, A. Pellegrina, P. Ramirez, F. Giambruno, a. Fréneaux, F. Leconte, D. Badarau, J. Boudenne, D. Fournet, T. Valloton, J. Paillard, J. Veray, M. Pina, P. Monot, J. Chambaret, P. Martin, F. Mathieu, P. Audebert, and F. Amiranoff, “Design and current progress of the Apollon 10 PW project,” High Power Laser Science and Engineering 3, e2 (2015).
[Crossref]

IEEE J. Sel. Top. Quantum Phys. (1)

J. Bonse, S. Höhm, S. V. Kirner, A. Rosenfeld, and J. Kruger, “Laser-induced periodic surface structures - a scientific evergreen,” IEEE J. Sel. Top. Quantum Phys. PP, 1 (2016).
[Crossref]

J. Appl. Phys. (1)

D. R. Austin, K. R. Kafka, Y. H. Lai, Z. Wang, K. Zhang, H. Li, C. I. Blaga, Y. Y. Allen, L. F. DiMauro, and E. A. Chowdhury, “High spatial frequency laser induced periodic surface structure formation in germanium by mid-ir femtosecond pulses,” J. Appl. Phys. 120, 143103 (2016).
[Crossref]

J. Laser Appl. (1)

J. Bonse, J. Krüger, S. Höhm, and A. Rosenfeld, “Femtosecond laser-induced periodic surface structures,” J. Laser Appl. 24, 042006 (2012).
[Crossref]

Nat. Commun. (1)

B. E. Schmidt, N. Thiré, M. Boivin, A. Laramée, F. Poitras, G. Lebrun, T. Ozaki, H. Ibrahim, and F. Légaré, “Frequency domain optical parametric amplification,” Nat. Commun. 5, 3643 (2014).
[Crossref] [PubMed]

Nature (1)

A. Schiffrin, T. Paasch-Colberg, N. Karpowicz, V. Apalkov, D. Gerster, S. Mühlbrandt, M. Korbman, J. Reichert, M. Schultze, S. Holzner, and et al., “Optical-field-induced current in dielectrics,” Nature 493, 70–74 (2013).
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Figures (6)

Fig. 1
Fig. 1

Schematic of the FCP LIDT setup. Input pulses are coupled into an argon filled hollow-core fiber to generate hundreds of nm of bandwidth. The output is collimated, and then is compressed by a set of chirped mirrors. Pulse energy is varied with a waveplate and Brewster-reflection from a prism, and measured with a calibrated photodiode. Pulse duration is optimized with a wedge pair, the beam enters the vacuum chamber via a Brewster window, and is focused onto a target. The 5-axis target stage can be rotated for testing at both 0° and 45° incidence. A HeNe laser illuminates the interaction region, which is monitored in situ via a 10× microscope objective. The inset shows the configuration for focal spot analysis, along with a typical beam profile.

Fig. 2
Fig. 2

Example plots of damage probability. Some samples or test conditions had more smoothly-defined LIDT (left), while others had more sharply-defined LIDT (right). The dashed line indicates the reported LIDT, while the shading indicates the size of the error bar.

Fig. 3
Fig. 3

LIDT fluences vs. test type. Fluences are reported as peak, beam-normal. Refer to Table 1 for details of each sample. As expected, multi-pulse LIDT (left) is always significantly lower than the single-pulse LIDT (right) under otherwise identical conditions. Within a given test type, the LIDT increases approximately with decreasing sample reflectivity. While the air vs. vacuum environment does not appear to have an effect on LIDT for the bare UVFS sample, some coated optics are influenced by the environment. Furthermore, the environmental effect on multi-pulse LIDT trends in the opposite direction of the effect on single-pulse LIDT. UVFS results have been scaled down by a factor of 10 for plot readability.

Fig. 4
Fig. 4

SEM images of DE-Ag II mirror, showing the contrast between air and vacuum for 1000 pulse damage at 0.20 J/cm2. LIPSS generated in air (a) are primarily ‖ to laser polarization, whereas in vacuum (b) they are ⊥ to polarization. Laser is incident from the left at 45°P.

Fig. 5
Fig. 5

Depth profiles of the 50–50 beamsplitter, showing the contrast between air (a,b) and vacuum (c,d) for 1000 pulse damage. Optical profile in (a) clearly shows LIPSS (parallel to polarization), though depth scaling is inaccurate due to interference effects from the multi-layer thin-film design of the optic. AFM in (b) shows the same site as (a) (white arrow guides eye to an example LIPSS groove) with quantitative depth information, and shows very tall debris. AFM in (c) shows vacuum blister morphology, with onset of more dramatic damage visible at the central peak fluence location, which is magnified in (d). Depth contrast in (c) is enhanced to increase visibility of blister contour, while true depth scaling is maintained in (d). Laser is incident from the left at 45°P.

Fig. 6
Fig. 6

AFM profiles of the UVFS, 1000 pulses. Test conditions are (a) FCP, air; (b) FCP, vacuum; (c) 35 fs, air. No LIPSS are observed for neither air nor vacuum, though the air case has nano-scale ridges aligned ⊥ to laser polarization. In (a), the air-formed ridges are ∼ 200 nm wide and 1 − 15 nm tall at this fluence.

Tables (1)

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Table 1 Samples Tested

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