Abstract

A single-shot characterization of the temporal contrast of a petawatt laser pulse with a high dynamic-range, is important not only for improving conditions of the petawatt laser facility itself, but also for various high-intensity laser physics experiments, which is still a difficult problem. In this study, a new idea for improving the dynamic-range of a single-shot temporal contrast measurement using novel temporal contrast reduction techniques is proposed. The proof-of-principle experiments applying single stage of pulse stretching, anti-saturated absorption, or optical Kerr effect successfully reduce the temporal contrast by approximately one order of magnitude. Combining with the SRSI-ETE method, its dynamic-range characterization capability is improved by approximately one order of magnitude to approximately 109. It is expected that a higher dynamic-range temporal contrast can be characterized by using cascaded temporal contrast reduction processes. The proposed techniques can also be used in the delay-scanning temporal contrast measurement to improve its dynamic range.

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

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2019 (2)

A. Sunahara, T. Asahina, H. Nagatomo, R. Hanayama, K. Mima, H. Tanaka, Y. Kato, and S. Nakai, “Efficient laser acceleration of deuteron ions through optimization of pre-plasma formation for neutron source development,” Plasma Phys. Controlled Fusion 611 (2019).

P. Wang, X. Shen, J. Liu, and R. Li, “Generation of high-energy clean multicolored ultrashort pulses and their application in single-shot temporal contrast measurement,” Opt. Express 27(5), 6536–6548 (2019).
[Crossref] [PubMed]

2018 (7)

H. Kiriyama, A. S. Pirozhkov, M. Nishiuchi, Y. Fukuda, K. Ogura, A. Sagisaka, Y. Miyasaka, M. Mori, H. Sakaki, N. P. Dover, K. Kondo, J. K. Koga, T. Z. Esirkepov, M. Kando, and K. Kondo, “High-contrast high-intensity repetitive petawatt laser,” Opt. Lett. 43(11), 2595–2598 (2018).
[Crossref] [PubMed]

W. Li, Z. Gan, L. Yu, C. Wang, Y. Liu, Z. Guo, L. Xu, M. Xu, Y. Hang, Y. Xu, J. Wang, P. Huang, H. Cao, B. Yao, X. Zhang, L. Chen, Y. Tang, S. Li, X. Liu, S. Li, M. He, D. Yin, X. Liang, Y. Leng, R. Li, and Z. Xu, “339 J high-energy Ti:sapphire chirped-pulse amplifier for 10 PW laser facility,” Opt. Lett. 43(22), 5681–5684 (2018).
[Crossref] [PubMed]

B. Shen, Z. Bu, J. Xu, T. Xu, L. Ji, R. Li, and Z. Xu, “Exploring vacuum birefringence based on a 100 PW laser and an x-ray free electron laser beam,” Plasma Phys. Controlled Fusion 60, 1 (2018).

E. Cartlidge, “The light fantastic,” Science 359(6374), 382–385 (2018).
[Crossref] [PubMed]

S. Gales, K. A. Tanaka, D. L. Balabanski, F. Negoita, D. Stutman, O. Tesileanu, C. A. Ur, D. Ursescu, I. Andrei, S. Ataman, M. O. Cernaianu, L. D’Alessi, I. Dancus, B. Diaconescu, N. Djourelov, D. Filipescu, P. Ghenuche, D. G. Ghita, C. Matei, K. Seto, M. Zeng, and N. V. Zamfir, “The extreme light infrastructure-nuclear physics (ELI-NP) facility: new horizons in physics with 10 PW ultra-intense lasers and 20 MeV brilliant gamma beams,” Rep. Prog. Phys. 81(9), 094301 (2018).
[Crossref] [PubMed]

X. Shen, P. Wang, J. Liu, and R. Li, “Linear angular dispersion compensation of cleaned self-diffraction light with a single prism,” High Power Laser Sci. Eng. 61 (2018).

J. Wang, J. Ma, P. Yuan, D. Tang, G. Xie, L. Qian, and F. W. Wise, “In-band noise filtering via spatio-spectral coupling,” Laser Photonics Rev. 12(8), 1700316 (2018).
[Crossref]

2017 (5)

2016 (3)

W. T. Wang, W. T. Li, J. S. Liu, Z. J. Zhang, R. Qi, C. H. Yu, J. Q. Liu, M. Fang, Z. Y. Qin, C. Wang, Y. Xu, F. X. Wu, Y. X. Leng, R. X. Li, and Z. Z. Xu, “High-brightness high-energy electron beams from a laser wakefield accelerator via energy chirp control,” Phys. Rev. Lett. 117(12), 124801 (2016).
[Crossref] [PubMed]

D. N. Papadopoulos, J. P. Zou, C. Le Blanc, G. Cheriaux, P. Georges, F. Druon, G. Mennerat, P. Ramirez, L. Martin, A. Freneaux, A. Beluze, N. Lebas, P. Monot, F. Mathieu, and P. Audebert, “The Apollon 10 PW laser: experimental and theoretical investigation of the temporal characteristics,” High Power Laser Sci. Eng. 41 (2016).

J. Du, L. Wang, N. Xie, L. Sun, X. Wang, Y. Zhao, and F. Wu, “Optical limiting property of a liquid malononitrile derivative on 800 nm laser pulses,” Opt. Mater. 58, 164–170 (2016).
[Crossref]

2015 (2)

C. Danson, D. Hillier, N. Hopps, and D. Neely, “Petawatt class lasers worldwide,” High Power Laser Sci. Eng. 31 (2015).

Y. Wang, J. Ma, J. Wang, P. Yuan, G. Xie, X. Ge, F. Liu, X. Yuan, H. Zhu, and L. Qian, “Single-shot measurement of >10(10) pulse contrast for ultra-high peak-power lasers,” Sci. Rep. 4(1), 3818 (2015).
[Crossref] [PubMed]

2014 (1)

A. Shaykin, I. Kostyukov, A. Sergeev, and E. Khazanov, “Prospects of PEARL 10 and XCELS laser facilities,” Rev. Laser Eng. (Japan) 42, 141–144 (2014).

2013 (1)

S. V. Chekalin and V. P. Kandidov, “From self-focusing light beams to femtosecond laser pulse filamentation,” Phys.-. Usp. 56(2), 123–140 (2013).
[Crossref]

2012 (5)

2011 (2)

2010 (5)

H. Kiriyama, M. Mori, Y. Nakai, T. Shimomura, H. Sasao, M. Tanoue, S. Kanazawa, D. Wakai, F. Sasao, H. Okada, I. Daito, M. Suzuki, S. Kondo, K. Kondo, A. Sugiyama, P. R. Bolton, A. Yokoyama, H. Daido, S. Kawanishi, T. Kimura, and T. Tajima, “High temporal and spatial quality petawatt-class Ti:sapphire chirped-pulse amplification laser system,” Opt. Lett. 35(10), 1497–1499 (2010).
[Crossref] [PubMed]

J. Liu, K. Okamura, Y. Kida, and T. Kobayashi, “Temporal contrast enhancement of femtosecond pulses by a self-diffraction process in a bulk Kerr medium,” Opt. Express 18(21), 22245–22254 (2010).
[Crossref] [PubMed]

A. Moulet, S. Grabielle, C. Cornaggia, N. Forget, and T. Oksenhendler, “Single-shot, high-dynamic-range measurement of sub-15 fs pulses by self-referenced spectral interferometry,” Opt. Lett. 35(22), 3856–3858 (2010).
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C. G. R. Geddes, C. S. Toth, J. Van Tilborg, E. Esarey, C. B. Schroeder, D. Bruhwiler, C. Nieter, J. Cary, and W. P. Leemans, “High-quality electron beams from a laser wakefield accelerator using plasma-channel guiding,” Nature 431(7008), 538–541 (2004).
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Forget, N.

T. Oksenhendler, S. Coudreau, N. Forget, V. Crozatier, S. Grabielle, R. Herzog, O. Gobert, and D. Kaplan, “Self-referenced spectral interferometry,” Appl. Phys. B-Lasers Opt. 99(1-2), 7–12 (2010).
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A. G. MacPhee, L. Divol, A. J. Kemp, K. U. Akli, F. N. Beg, C. D. Chen, H. Chen, D. S. Hey, R. J. Fedosejevs, R. R. Freeman, M. Henesian, M. H. Key, S. Le Pape, A. Link, T. Ma, A. J. Mackinnon, V. M. Ovchinnikov, P. K. Patel, T. W. Phillips, R. B. Stephens, M. Tabak, R. Town, Y. Y. Tsui, L. D. Van Woerkom, M. S. Wei, and S. C. Wilks, “Limitation on prepulse level for cone-guided fast-ignition inertial confinement fusion,” Phys. Rev. Lett. 104(5), 055002 (2010).
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Ge, X.

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C. Thaury, F. Quere, J. P. Geindre, A. Levy, T. Ceccotti, P. Monot, M. Bougeard, F. Reau, P. D’Oliveira, P. Audebert, R. Marjoribanks, and P. H. Martin, “Plasma mirrors for ultrahigh-intensity optics,” Nat. Phys. 3(6), 424–429 (2007).
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Ghenuche, P.

S. Gales, K. A. Tanaka, D. L. Balabanski, F. Negoita, D. Stutman, O. Tesileanu, C. A. Ur, D. Ursescu, I. Andrei, S. Ataman, M. O. Cernaianu, L. D’Alessi, I. Dancus, B. Diaconescu, N. Djourelov, D. Filipescu, P. Ghenuche, D. G. Ghita, C. Matei, K. Seto, M. Zeng, and N. V. Zamfir, “The extreme light infrastructure-nuclear physics (ELI-NP) facility: new horizons in physics with 10 PW ultra-intense lasers and 20 MeV brilliant gamma beams,” Rep. Prog. Phys. 81(9), 094301 (2018).
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S. Gales, K. A. Tanaka, D. L. Balabanski, F. Negoita, D. Stutman, O. Tesileanu, C. A. Ur, D. Ursescu, I. Andrei, S. Ataman, M. O. Cernaianu, L. D’Alessi, I. Dancus, B. Diaconescu, N. Djourelov, D. Filipescu, P. Ghenuche, D. G. Ghita, C. Matei, K. Seto, M. Zeng, and N. V. Zamfir, “The extreme light infrastructure-nuclear physics (ELI-NP) facility: new horizons in physics with 10 PW ultra-intense lasers and 20 MeV brilliant gamma beams,” Rep. Prog. Phys. 81(9), 094301 (2018).
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V. V. Lozhkarev, G. I. Freidman, V. N. Ginzburg, E. V. Katin, E. A. Khazanov, A. V. Kirsanov, G. A. Luchinin, A. N. Mal’shakov, M. A. Martyanov, O. V. Palashov, A. K. Poteomkin, A. M. Sergeev, A. A. Shaykin, and I. V. Yakovlev, “Compact 0.56 Petawatt laser system based on optical parametric chirped pulse amplification in KD*P crystals,” Laser Phys. Lett. 4(6), 421–427 (2007).
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T. Oksenhendler, S. Coudreau, N. Forget, V. Crozatier, S. Grabielle, R. Herzog, O. Gobert, and D. Kaplan, “Self-referenced spectral interferometry,” Appl. Phys. B-Lasers Opt. 99(1-2), 7–12 (2010).
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T. Oksenhendler, S. Coudreau, N. Forget, V. Crozatier, S. Grabielle, R. Herzog, O. Gobert, and D. Kaplan, “Self-referenced spectral interferometry,” Appl. Phys. B-Lasers Opt. 99(1-2), 7–12 (2010).
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A. Moulet, S. Grabielle, C. Cornaggia, N. Forget, and T. Oksenhendler, “Single-shot, high-dynamic-range measurement of sub-15 fs pulses by self-referenced spectral interferometry,” Opt. Lett. 35(22), 3856–3858 (2010).
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Guo, Z.

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Hall, A.

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Hanayama, R.

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G. S. He, L.-S. Tan, Q. Zheng, and P. N. Prasad, “Multiphoton absorbing materials: molecular designs, characterizations, and applications,” Chem. Rev. 108(4), 1245–1330 (2008).
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J. Collier, C. Hernandez-Gomez, R. Allott, C. Danson, and A. Hall, “A single-shot third-order autocorrelator for pulse contrast and pulse shape measurements,” Laser Part. Beams 19(2), 231–235 (2001).
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T. Oksenhendler, S. Coudreau, N. Forget, V. Crozatier, S. Grabielle, R. Herzog, O. Gobert, and D. Kaplan, “Self-referenced spectral interferometry,” Appl. Phys. B-Lasers Opt. 99(1-2), 7–12 (2010).
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A. G. MacPhee, L. Divol, A. J. Kemp, K. U. Akli, F. N. Beg, C. D. Chen, H. Chen, D. S. Hey, R. J. Fedosejevs, R. R. Freeman, M. Henesian, M. H. Key, S. Le Pape, A. Link, T. Ma, A. J. Mackinnon, V. M. Ovchinnikov, P. K. Patel, T. W. Phillips, R. B. Stephens, M. Tabak, R. Town, Y. Y. Tsui, L. D. Van Woerkom, M. S. Wei, and S. C. Wilks, “Limitation on prepulse level for cone-guided fast-ignition inertial confinement fusion,” Phys. Rev. Lett. 104(5), 055002 (2010).
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C. Danson, D. Hillier, N. Hopps, and D. Neely, “Petawatt class lasers worldwide,” High Power Laser Sci. Eng. 31 (2015).

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Hopps, N.

C. Danson, D. Hillier, N. Hopps, and D. Neely, “Petawatt class lasers worldwide,” High Power Laser Sci. Eng. 31 (2015).

Huang, P.

Huang, X.

Huang, Y.

Itatani, J.

J. Itatani, J. Faure, M. Nantel, G. Mourou, and S. Watanabe, “Suppression of the amplified spontaneous emission in chirped-pulse-amplification lasers by clean high-energy seed-pulse injection,” Opt. Commun. 148(1-3), 70–74 (1998).
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H. Schwoerer, S. Pfotenhauer, O. Jäckel, K. U. Amthor, B. Liesfeld, W. Ziegler, R. Sauerbrey, K. W. D. Ledingham, and T. Esirkepov, “Laser-plasma acceleration of quasi-monoenergetic protons from microstructured targets,” Nature 439(7075), 445–448 (2006).
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Jang, Y. H.

Ji, L.

B. Shen, Z. Bu, J. Xu, T. Xu, L. Ji, R. Li, and Z. Xu, “Exploring vacuum birefringence based on a 100 PW laser and an x-ray free electron laser beam,” Plasma Phys. Controlled Fusion 60, 1 (2018).

Jiang, D.

Jiang, X.

Jiang, Y. L.

Jing, F.

Joffre, M.

Jonusauskas, G.

A. Dubietis, G. Jonusauskas, and A. Piskarskas, “Powerful femtosecond pulse generation by chirped and stretched pulse parametric amplification in bbo crystal,” Opt. Commun. 88(4-6), 437–440 (1992).
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Jullien, A.

Kalashnikov, M. P.

Kalinchenko, G.

Kanazawa, S.

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S. V. Chekalin and V. P. Kandidov, “From self-focusing light beams to femtosecond laser pulse filamentation,” Phys.-. Usp. 56(2), 123–140 (2013).
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Kando, M.

Kaplan, D.

T. Oksenhendler, S. Coudreau, N. Forget, V. Crozatier, S. Grabielle, R. Herzog, O. Gobert, and D. Kaplan, “Self-referenced spectral interferometry,” Appl. Phys. B-Lasers Opt. 99(1-2), 7–12 (2010).
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Katin, E. V.

V. V. Lozhkarev, G. I. Freidman, V. N. Ginzburg, E. V. Katin, E. A. Khazanov, A. V. Kirsanov, G. A. Luchinin, A. N. Mal’shakov, M. A. Martyanov, O. V. Palashov, A. K. Poteomkin, A. M. Sergeev, A. A. Shaykin, and I. V. Yakovlev, “Compact 0.56 Petawatt laser system based on optical parametric chirped pulse amplification in KD*P crystals,” Laser Phys. Lett. 4(6), 421–427 (2007).
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Kato, Y.

A. Sunahara, T. Asahina, H. Nagatomo, R. Hanayama, K. Mima, H. Tanaka, Y. Kato, and S. Nakai, “Efficient laser acceleration of deuteron ions through optimization of pre-plasma formation for neutron source development,” Plasma Phys. Controlled Fusion 611 (2019).

Kawanishi, S.

Kemp, A. J.

A. G. MacPhee, L. Divol, A. J. Kemp, K. U. Akli, F. N. Beg, C. D. Chen, H. Chen, D. S. Hey, R. J. Fedosejevs, R. R. Freeman, M. Henesian, M. H. Key, S. Le Pape, A. Link, T. Ma, A. J. Mackinnon, V. M. Ovchinnikov, P. K. Patel, T. W. Phillips, R. B. Stephens, M. Tabak, R. Town, Y. Y. Tsui, L. D. Van Woerkom, M. S. Wei, and S. C. Wilks, “Limitation on prepulse level for cone-guided fast-ignition inertial confinement fusion,” Phys. Rev. Lett. 104(5), 055002 (2010).
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Key, M. H.

A. G. MacPhee, L. Divol, A. J. Kemp, K. U. Akli, F. N. Beg, C. D. Chen, H. Chen, D. S. Hey, R. J. Fedosejevs, R. R. Freeman, M. Henesian, M. H. Key, S. Le Pape, A. Link, T. Ma, A. J. Mackinnon, V. M. Ovchinnikov, P. K. Patel, T. W. Phillips, R. B. Stephens, M. Tabak, R. Town, Y. Y. Tsui, L. D. Van Woerkom, M. S. Wei, and S. C. Wilks, “Limitation on prepulse level for cone-guided fast-ignition inertial confinement fusion,” Phys. Rev. Lett. 104(5), 055002 (2010).
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A. Shaykin, I. Kostyukov, A. Sergeev, and E. Khazanov, “Prospects of PEARL 10 and XCELS laser facilities,” Rev. Laser Eng. (Japan) 42, 141–144 (2014).

Khazanov, E. A.

V. V. Lozhkarev, G. I. Freidman, V. N. Ginzburg, E. V. Katin, E. A. Khazanov, A. V. Kirsanov, G. A. Luchinin, A. N. Mal’shakov, M. A. Martyanov, O. V. Palashov, A. K. Poteomkin, A. M. Sergeev, A. A. Shaykin, and I. V. Yakovlev, “Compact 0.56 Petawatt laser system based on optical parametric chirped pulse amplification in KD*P crystals,” Laser Phys. Lett. 4(6), 421–427 (2007).
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Kida, Y.

Kimura, T.

Kiriyama, H.

Kirk, J. G.

C. P. Ridgers, C. S. Brady, R. Duclous, J. G. Kirk, K. Bennett, T. D. Arber, A. P. L. Robinson, and A. R. Bell, “Dense electron-positron plasmas and ultraintense γ rays from laser-irradiated solids,” Phys. Rev. Lett. 108(16), 165006 (2012).
[Crossref] [PubMed]

Kirsanov, A. V.

V. V. Lozhkarev, G. I. Freidman, V. N. Ginzburg, E. V. Katin, E. A. Khazanov, A. V. Kirsanov, G. A. Luchinin, A. N. Mal’shakov, M. A. Martyanov, O. V. Palashov, A. K. Poteomkin, A. M. Sergeev, A. A. Shaykin, and I. V. Yakovlev, “Compact 0.56 Petawatt laser system based on optical parametric chirped pulse amplification in KD*P crystals,” Laser Phys. Lett. 4(6), 421–427 (2007).
[Crossref]

Kobayashi, T.

Koga, J. K.

Kondo, K.

Kondo, S.

Kostyukov, I.

A. Shaykin, I. Kostyukov, A. Sergeev, and E. Khazanov, “Prospects of PEARL 10 and XCELS laser facilities,” Rev. Laser Eng. (Japan) 42, 141–144 (2014).

Krushelnick, K.

Labaune, C. L.

G. A. Mourou, C. L. Labaune, M. Dunne, N. Naumova, and V. T. Tikhonchuk, “Relativistic laser-matter interaction: from attosecond pulse generation to fast ignition,” Plasma Phys. Contr. Fusion 49(12B), B667–B675 (2007).
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D. N. Papadopoulos, J. P. Zou, C. Le Blanc, G. Cheriaux, P. Georges, F. Druon, G. Mennerat, P. Ramirez, L. Martin, A. Freneaux, A. Beluze, N. Lebas, P. Monot, F. Mathieu, and P. Audebert, “The Apollon 10 PW laser: experimental and theoretical investigation of the temporal characteristics,” High Power Laser Sci. Eng. 41 (2016).

Le Pape, S.

A. G. MacPhee, L. Divol, A. J. Kemp, K. U. Akli, F. N. Beg, C. D. Chen, H. Chen, D. S. Hey, R. J. Fedosejevs, R. R. Freeman, M. Henesian, M. H. Key, S. Le Pape, A. Link, T. Ma, A. J. Mackinnon, V. M. Ovchinnikov, P. K. Patel, T. W. Phillips, R. B. Stephens, M. Tabak, R. Town, Y. Y. Tsui, L. D. Van Woerkom, M. S. Wei, and S. C. Wilks, “Limitation on prepulse level for cone-guided fast-ignition inertial confinement fusion,” Phys. Rev. Lett. 104(5), 055002 (2010).
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Lebas, N.

D. N. Papadopoulos, J. P. Zou, C. Le Blanc, G. Cheriaux, P. Georges, F. Druon, G. Mennerat, P. Ramirez, L. Martin, A. Freneaux, A. Beluze, N. Lebas, P. Monot, F. Mathieu, and P. Audebert, “The Apollon 10 PW laser: experimental and theoretical investigation of the temporal characteristics,” High Power Laser Sci. Eng. 41 (2016).

Ledingham, K. W. D.

H. Schwoerer, S. Pfotenhauer, O. Jäckel, K. U. Amthor, B. Liesfeld, W. Ziegler, R. Sauerbrey, K. W. D. Ledingham, and T. Esirkepov, “Laser-plasma acceleration of quasi-monoenergetic protons from microstructured targets,” Nature 439(7075), 445–448 (2006).
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Lee, C. W.

Lee, H. W.

Lee, S. K.

Leemans, W. P.

C. G. R. Geddes, C. S. Toth, J. Van Tilborg, E. Esarey, C. B. Schroeder, D. Bruhwiler, C. Nieter, J. Cary, and W. P. Leemans, “High-quality electron beams from a laser wakefield accelerator using plasma-channel guiding,” Nature 431(7008), 538–541 (2004).
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Figures (7)

Fig. 1
Fig. 1 Principle of high dynamic temporal contrast characterization. CPI, calibrating pulse introduction; TCR, temporal contrast reduction; TCM, temporal contrast measurement; TCRc, temporal contrast reconstruction.
Fig. 2
Fig. 2 (a) Third-order autocorrelation curves and (b) temporal contrast curves of all three pulses at three different pulse widths.
Fig. 3
Fig. 3 (a) Diagram of a TCR-based SRSI-ETE device. (b) Diagram of a TCR-based SRSI-ETE device with reference pulse generation using the SD process.
Fig. 4
Fig. 4 Experimental setup for TCR using the optical limiting effect. P is a 0.5 mm thick fused silica plate. Ab is an anti-saturated absorption material. The scheme of the “Reference Pulse Generation” section is similar to the SD process shown in Fig. 3(b).
Fig. 5
Fig. 5 (a) Anti-saturated absorption curve of LBDBP. The inserted figure is the principle of TCR by using Anti-saturated absorption. (b) Temporal contrast signals of the input pulse, characterized by Sequoia 800 (black) or by our home-made SRSI-ETE device, shown in Fig. 4, without (blue) and with optical limiting effect (red) in the LBDBP sample.
Fig. 6
Fig. 6 Experimental setup for TCR using the optical Kerr effect. P, a 0.5 mm thick fused silica plate for generating reference calibrating pulses. OK, a 1 mm thick fused silica plate, used for self-focusing. The scheme of the “Reference Pulse Generation” section shows the same SD process as shown in Fig. 3(b).
Fig. 7
Fig. 7 Transverse profiles of beams without (a) or with (b) optical Kerr effect. (c) Temporal contrast curves of the input pulse, characterized by Sequoia 800 (black) or our device without (blue) and with the OKE (red) in a 1 mm fused silica plate.

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