Abstract

Generation of octave-spanning spectrum that spans from 570 nm to 1300 nm utilizing 1030 nm 170 fs pulses from a Yb:KGW laser and a two-stage multiple-plate arrangement is demonstrated. 3.21 fs sub-single-cycle pulses are obtained after dispersion compensation. The high compression ratio of more than 50 times is achieved for two scenarios with widely different parameters including high input peak power at 1 kHz repetition rate and modest peak power at a high repetition rate of 100 kHz. The output pulses have good spatial mode quality and exhibit long-term stability. The achieved compression ratio and flexibility are unprecedented in ultrafast pulse compression to single-cycle regime. The experiments demonstrate that the technique of multiple-plate pulse compression is versatile and applicable for a wide range of laser pulse parameters.

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

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2018 (7)

C. H. Lu, T. Witting, A. Husakou, M. J. J. Vrakking, A. H. Kung, and F. J. Furch, “Sub-4 fs laser pulses at high average power and high repetition rate from an all-solid-state setup,” Opt. Express 26(7), 8941–8956 (2018).
[Crossref] [PubMed]

L. Lavenu, M. Natile, F. Guichard, Y. Zaouter, X. Delen, M. Hanna, E. Mottay, and P. Georges, “Nonlinear pulse compression based on a gas-filled multipass cell,” Opt. Lett. 43(10), 2252–2255 (2018).
[Crossref] [PubMed]

M. Ueffing, S. Reiger, M. Kaumanns, V. Pervak, M. Trubetskov, T. Nubbemeyer, and F. Krausz, “Nonlinear pulse compression in a gas-filled multipass cell,” Opt. Lett. 43(9), 2070–2073 (2018).
[Crossref] [PubMed]

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[Crossref] [PubMed]

J. E. Beetar, S. Gholam-Mirzaei, and M. Chini, “Spectral broadening and pulse compression of a 400 μJ, 20 W Yb:KGW laser using a multi-plate medium,” Appl. Phys. Lett. 112(5), 051102 (2018).
[Crossref]

Y.-G. Jeong, R. Piccoli, D. Ferachou, V. Cardin, M. Chini, S. Hädrich, J. Limpert, R. Morandotti, F. Légaré, B. E. Schmidt, and L. Razzari, “Direct compression of 170-fs 50-cycle pulses down to 1.5 cycles with 70% transmission,” Sci. Rep. 8(1), 11794 (2018).
[Crossref] [PubMed]

P. C. Huang, C. H. García, J. T. Huang, P. Y. Huang, C. H. Lu, L. Rego, D. D. Hickstein, J. L. Ellis, A. J. Becker, A. Becker, S. D. Yang, C. G. Durfee, L. Plaja, H. C. Kapteyn, M. M. Murnane, A. H. Kung, and M. C. Chen, “Polarization control of isolated high-harmonic pulses,” Nat. Photonics 12(6), 349–354 (2018).

2017 (4)

2016 (4)

2015 (2)

D. Fabris, T. Witting, W. A. Okell, D. J. Walke, P. Matia-Hernando, J. Henkel, T. R. Barillot, M. Lein, J. P. Marangos, and J. W. G. Tisch, “Synchronized pulses generated at 20 eV and 90 eV for attosecond pump–probe experiments,” Nat. Photonics 9(6), 383–387 (2015).
[Crossref]

D. D. Hickstein, F. J. Dollar, P. Grychtol, J. L. Ellis, R. Knut, C. Hernández-García, D. Zusin, C. Gentry, J. M. Shaw, T. Fan, K. M. Dorney, A. Becker, A. Jaroń-Becker, H. C. Kapteyn, M. M. Murnane, and C. G. Durfee, “Non-collinear generation of angularly isolated circularly polarized high harmonics,” Nat. Photonics 9(11), 743–750 (2015).
[Crossref]

2014 (6)

F. Lépine, M. Ivanov, and M. J. J. Vrakking, “Attosecond molecular dynamics: fact or fiction?” Nat. Photonics 8(3), 195–204 (2014).
[Crossref]

F. Krausz and M. I. Stockman, “Attosecond metrology: from electron capture to future signal processing,” Nat. Photonics 8(3), 205–213 (2014).
[Crossref]

S. R. Leone, C. W. McCurdy, J. Burgdorfer, L. S. Cederbaum, Z. Chang, N. Dudovich, J. Feist, C. H. Greene, M. Ivanov, R. Kienberger, U. Keller, M. F. Kling, Z. H. Loh, T. Pfeifer, A. N. Pfeiffer, R. Santra, K. Schafer, A. Stolow, U. Thumm, and M. J. J. Vrakking, “What will it take to observe processes in ‘real time’?” Nat. Photonics 8(3), 162–166 (2014).
[Crossref]

F. Emaury, C. J. Saraceno, B. Debord, D. Ghosh, A. Diebold, F. Gèrôme, T. Südmeyer, F. Benabid, and U. Keller, “Efficient spectral broadening in the 100-W average power regime using gas-filled kagome HC-PCF and pulse compression,” Opt. Lett. 39(24), 6843–6846 (2014).
[Crossref] [PubMed]

C. H. Lu, Y. J. Tsou, H. Y. Chen, B. H. Chen, Y. C. Cheng, S. D. Yang, M. C. Chen, C. C. Hsu, and A. H. Kung, “Generation of intense supercontinuum in condensed media,” Optica 1(6), 400–406 (2014).
[Crossref]

T. C. Wong, M. Rhodes, and R. Trebino, “Single-shot measurement of the complete temporal intensity and phase of supercontinuum,” Optica 1(2), 119–124 (2014).
[Crossref]

2005 (1)

2004 (1)

E. Goulielmakis, M. Uiberacker, R. Kienberger, A. Baltuska, V. Yakovlev, A. Scrinzi, T. Westerwalbesloh, U. Kleineberg, U. Heinzmann, M. Drescher, and F. Krausz, “Direct measurement of light waves,” Science 305(5688), 1267–1269 (2004).
[Crossref] [PubMed]

2000 (1)

1994 (1)

A. Giesen, H. Hugel, A. Voss, K. Wittig, U. Brauch, and H. Opower, “Scalable concept for diode-pumped high-power solid-state lasers,” Appl. Phys. B 58(5), 365 (1994).
[Crossref]

Arisholm, G.

Aus der Au, J.

Baltuska, A.

E. Goulielmakis, M. Uiberacker, R. Kienberger, A. Baltuska, V. Yakovlev, A. Scrinzi, T. Westerwalbesloh, U. Kleineberg, U. Heinzmann, M. Drescher, and F. Krausz, “Direct measurement of light waves,” Science 305(5688), 1267–1269 (2004).
[Crossref] [PubMed]

Barillot, T. R.

D. Fabris, T. Witting, W. A. Okell, D. J. Walke, P. Matia-Hernando, J. Henkel, T. R. Barillot, M. Lein, J. P. Marangos, and J. W. G. Tisch, “Synchronized pulses generated at 20 eV and 90 eV for attosecond pump–probe experiments,” Nat. Photonics 9(6), 383–387 (2015).
[Crossref]

Baum, P.

Becker, A.

P. C. Huang, C. H. García, J. T. Huang, P. Y. Huang, C. H. Lu, L. Rego, D. D. Hickstein, J. L. Ellis, A. J. Becker, A. Becker, S. D. Yang, C. G. Durfee, L. Plaja, H. C. Kapteyn, M. M. Murnane, A. H. Kung, and M. C. Chen, “Polarization control of isolated high-harmonic pulses,” Nat. Photonics 12(6), 349–354 (2018).

D. D. Hickstein, F. J. Dollar, P. Grychtol, J. L. Ellis, R. Knut, C. Hernández-García, D. Zusin, C. Gentry, J. M. Shaw, T. Fan, K. M. Dorney, A. Becker, A. Jaroń-Becker, H. C. Kapteyn, M. M. Murnane, and C. G. Durfee, “Non-collinear generation of angularly isolated circularly polarized high harmonics,” Nat. Photonics 9(11), 743–750 (2015).
[Crossref]

Becker, A. J.

P. C. Huang, C. H. García, J. T. Huang, P. Y. Huang, C. H. Lu, L. Rego, D. D. Hickstein, J. L. Ellis, A. J. Becker, A. Becker, S. D. Yang, C. G. Durfee, L. Plaja, H. C. Kapteyn, M. M. Murnane, A. H. Kung, and M. C. Chen, “Polarization control of isolated high-harmonic pulses,” Nat. Photonics 12(6), 349–354 (2018).

Beetar, J. E.

J. E. Beetar, S. Gholam-Mirzaei, and M. Chini, “Spectral broadening and pulse compression of a 400 μJ, 20 W Yb:KGW laser using a multi-plate medium,” Appl. Phys. Lett. 112(5), 051102 (2018).
[Crossref]

Benabid, F.

Blumenstein, A.

Brauch, U.

A. Giesen, H. Hugel, A. Voss, K. Wittig, U. Brauch, and H. Opower, “Scalable concept for diode-pumped high-power solid-state lasers,” Appl. Phys. B 58(5), 365 (1994).
[Crossref]

Brons, J.

Burgdorfer, J.

S. R. Leone, C. W. McCurdy, J. Burgdorfer, L. S. Cederbaum, Z. Chang, N. Dudovich, J. Feist, C. H. Greene, M. Ivanov, R. Kienberger, U. Keller, M. F. Kling, Z. H. Loh, T. Pfeifer, A. N. Pfeiffer, R. Santra, K. Schafer, A. Stolow, U. Thumm, and M. J. J. Vrakking, “What will it take to observe processes in ‘real time’?” Nat. Photonics 8(3), 162–166 (2014).
[Crossref]

Cardin, V.

Y.-G. Jeong, R. Piccoli, D. Ferachou, V. Cardin, M. Chini, S. Hädrich, J. Limpert, R. Morandotti, F. Légaré, B. E. Schmidt, and L. Razzari, “Direct compression of 170-fs 50-cycle pulses down to 1.5 cycles with 70% transmission,” Sci. Rep. 8(1), 11794 (2018).
[Crossref] [PubMed]

Cederbaum, L. S.

S. R. Leone, C. W. McCurdy, J. Burgdorfer, L. S. Cederbaum, Z. Chang, N. Dudovich, J. Feist, C. H. Greene, M. Ivanov, R. Kienberger, U. Keller, M. F. Kling, Z. H. Loh, T. Pfeifer, A. N. Pfeiffer, R. Santra, K. Schafer, A. Stolow, U. Thumm, and M. J. J. Vrakking, “What will it take to observe processes in ‘real time’?” Nat. Photonics 8(3), 162–166 (2014).
[Crossref]

Chang, Z.

S. R. Leone, C. W. McCurdy, J. Burgdorfer, L. S. Cederbaum, Z. Chang, N. Dudovich, J. Feist, C. H. Greene, M. Ivanov, R. Kienberger, U. Keller, M. F. Kling, Z. H. Loh, T. Pfeifer, A. N. Pfeiffer, R. Santra, K. Schafer, A. Stolow, U. Thumm, and M. J. J. Vrakking, “What will it take to observe processes in ‘real time’?” Nat. Photonics 8(3), 162–166 (2014).
[Crossref]

Chen, B. H.

Chen, H. Y.

Chen, M. C.

P. C. Huang, C. H. García, J. T. Huang, P. Y. Huang, C. H. Lu, L. Rego, D. D. Hickstein, J. L. Ellis, A. J. Becker, A. Becker, S. D. Yang, C. G. Durfee, L. Plaja, H. C. Kapteyn, M. M. Murnane, A. H. Kung, and M. C. Chen, “Polarization control of isolated high-harmonic pulses,” Nat. Photonics 12(6), 349–354 (2018).

C. H. Lu, Y. J. Tsou, H. Y. Chen, B. H. Chen, Y. C. Cheng, S. D. Yang, M. C. Chen, C. C. Hsu, and A. H. Kung, “Generation of intense supercontinuum in condensed media,” Optica 1(6), 400–406 (2014).
[Crossref]

Cheng, Y. C.

Chini, M.

Y.-G. Jeong, R. Piccoli, D. Ferachou, V. Cardin, M. Chini, S. Hädrich, J. Limpert, R. Morandotti, F. Légaré, B. E. Schmidt, and L. Razzari, “Direct compression of 170-fs 50-cycle pulses down to 1.5 cycles with 70% transmission,” Sci. Rep. 8(1), 11794 (2018).
[Crossref] [PubMed]

J. E. Beetar, S. Gholam-Mirzaei, and M. Chini, “Spectral broadening and pulse compression of a 400 μJ, 20 W Yb:KGW laser using a multi-plate medium,” Appl. Phys. Lett. 112(5), 051102 (2018).
[Crossref]

Cormier, E.

Debord, B.

Delen, X.

Diebold, A.

Dollar, F. J.

D. D. Hickstein, F. J. Dollar, P. Grychtol, J. L. Ellis, R. Knut, C. Hernández-García, D. Zusin, C. Gentry, J. M. Shaw, T. Fan, K. M. Dorney, A. Becker, A. Jaroń-Becker, H. C. Kapteyn, M. M. Murnane, and C. G. Durfee, “Non-collinear generation of angularly isolated circularly polarized high harmonics,” Nat. Photonics 9(11), 743–750 (2015).
[Crossref]

Dorney, K. M.

D. D. Hickstein, F. J. Dollar, P. Grychtol, J. L. Ellis, R. Knut, C. Hernández-García, D. Zusin, C. Gentry, J. M. Shaw, T. Fan, K. M. Dorney, A. Becker, A. Jaroń-Becker, H. C. Kapteyn, M. M. Murnane, and C. G. Durfee, “Non-collinear generation of angularly isolated circularly polarized high harmonics,” Nat. Photonics 9(11), 743–750 (2015).
[Crossref]

Drescher, M.

E. Goulielmakis, M. Uiberacker, R. Kienberger, A. Baltuska, V. Yakovlev, A. Scrinzi, T. Westerwalbesloh, U. Kleineberg, U. Heinzmann, M. Drescher, and F. Krausz, “Direct measurement of light waves,” Science 305(5688), 1267–1269 (2004).
[Crossref] [PubMed]

Drozdy, A.

Dudovich, N.

S. R. Leone, C. W. McCurdy, J. Burgdorfer, L. S. Cederbaum, Z. Chang, N. Dudovich, J. Feist, C. H. Greene, M. Ivanov, R. Kienberger, U. Keller, M. F. Kling, Z. H. Loh, T. Pfeifer, A. N. Pfeiffer, R. Santra, K. Schafer, A. Stolow, U. Thumm, and M. J. J. Vrakking, “What will it take to observe processes in ‘real time’?” Nat. Photonics 8(3), 162–166 (2014).
[Crossref]

Durfee, C. G.

P. C. Huang, C. H. García, J. T. Huang, P. Y. Huang, C. H. Lu, L. Rego, D. D. Hickstein, J. L. Ellis, A. J. Becker, A. Becker, S. D. Yang, C. G. Durfee, L. Plaja, H. C. Kapteyn, M. M. Murnane, A. H. Kung, and M. C. Chen, “Polarization control of isolated high-harmonic pulses,” Nat. Photonics 12(6), 349–354 (2018).

D. D. Hickstein, F. J. Dollar, P. Grychtol, J. L. Ellis, R. Knut, C. Hernández-García, D. Zusin, C. Gentry, J. M. Shaw, T. Fan, K. M. Dorney, A. Becker, A. Jaroń-Becker, H. C. Kapteyn, M. M. Murnane, and C. G. Durfee, “Non-collinear generation of angularly isolated circularly polarized high harmonics,” Nat. Photonics 9(11), 743–750 (2015).
[Crossref]

Ehberger, D.

Eidam, T.

Ellis, J. L.

P. C. Huang, C. H. García, J. T. Huang, P. Y. Huang, C. H. Lu, L. Rego, D. D. Hickstein, J. L. Ellis, A. J. Becker, A. Becker, S. D. Yang, C. G. Durfee, L. Plaja, H. C. Kapteyn, M. M. Murnane, A. H. Kung, and M. C. Chen, “Polarization control of isolated high-harmonic pulses,” Nat. Photonics 12(6), 349–354 (2018).

D. D. Hickstein, F. J. Dollar, P. Grychtol, J. L. Ellis, R. Knut, C. Hernández-García, D. Zusin, C. Gentry, J. M. Shaw, T. Fan, K. M. Dorney, A. Becker, A. Jaroń-Becker, H. C. Kapteyn, M. M. Murnane, and C. G. Durfee, “Non-collinear generation of angularly isolated circularly polarized high harmonics,” Nat. Photonics 9(11), 743–750 (2015).
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D. D. Hickstein, F. J. Dollar, P. Grychtol, J. L. Ellis, R. Knut, C. Hernández-García, D. Zusin, C. Gentry, J. M. Shaw, T. Fan, K. M. Dorney, A. Becker, A. Jaroń-Becker, H. C. Kapteyn, M. M. Murnane, and C. G. Durfee, “Non-collinear generation of angularly isolated circularly polarized high harmonics,” Nat. Photonics 9(11), 743–750 (2015).
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D. D. Hickstein, F. J. Dollar, P. Grychtol, J. L. Ellis, R. Knut, C. Hernández-García, D. Zusin, C. Gentry, J. M. Shaw, T. Fan, K. M. Dorney, A. Becker, A. Jaroń-Becker, H. C. Kapteyn, M. M. Murnane, and C. G. Durfee, “Non-collinear generation of angularly isolated circularly polarized high harmonics,” Nat. Photonics 9(11), 743–750 (2015).
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D. D. Hickstein, F. J. Dollar, P. Grychtol, J. L. Ellis, R. Knut, C. Hernández-García, D. Zusin, C. Gentry, J. M. Shaw, T. Fan, K. M. Dorney, A. Becker, A. Jaroń-Becker, H. C. Kapteyn, M. M. Murnane, and C. G. Durfee, “Non-collinear generation of angularly isolated circularly polarized high harmonics,” Nat. Photonics 9(11), 743–750 (2015).
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Y.-G. Jeong, R. Piccoli, D. Ferachou, V. Cardin, M. Chini, S. Hädrich, J. Limpert, R. Morandotti, F. Légaré, B. E. Schmidt, and L. Razzari, “Direct compression of 170-fs 50-cycle pulses down to 1.5 cycles with 70% transmission,” Sci. Rep. 8(1), 11794 (2018).
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S. R. Leone, C. W. McCurdy, J. Burgdorfer, L. S. Cederbaum, Z. Chang, N. Dudovich, J. Feist, C. H. Greene, M. Ivanov, R. Kienberger, U. Keller, M. F. Kling, Z. H. Loh, T. Pfeifer, A. N. Pfeiffer, R. Santra, K. Schafer, A. Stolow, U. Thumm, and M. J. J. Vrakking, “What will it take to observe processes in ‘real time’?” Nat. Photonics 8(3), 162–166 (2014).
[Crossref]

Schell, F.

Schmidt, B. E.

Y.-G. Jeong, R. Piccoli, D. Ferachou, V. Cardin, M. Chini, S. Hädrich, J. Limpert, R. Morandotti, F. Légaré, B. E. Schmidt, and L. Razzari, “Direct compression of 170-fs 50-cycle pulses down to 1.5 cycles with 70% transmission,” Sci. Rep. 8(1), 11794 (2018).
[Crossref] [PubMed]

Schmidt, O.

Schreiber, T.

Schulte, J.

Schulz, C. P.

Scrinzi, A.

E. Goulielmakis, M. Uiberacker, R. Kienberger, A. Baltuska, V. Yakovlev, A. Scrinzi, T. Westerwalbesloh, U. Kleineberg, U. Heinzmann, M. Drescher, and F. Krausz, “Direct measurement of light waves,” Science 305(5688), 1267–1269 (2004).
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Seidel, M.

Shaw, J. M.

D. D. Hickstein, F. J. Dollar, P. Grychtol, J. L. Ellis, R. Knut, C. Hernández-García, D. Zusin, C. Gentry, J. M. Shaw, T. Fan, K. M. Dorney, A. Becker, A. Jaroń-Becker, H. C. Kapteyn, M. M. Murnane, and C. G. Durfee, “Non-collinear generation of angularly isolated circularly polarized high harmonics,” Nat. Photonics 9(11), 743–750 (2015).
[Crossref]

Simon, P.

Spühler, G. J.

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F. Krausz and M. I. Stockman, “Attosecond metrology: from electron capture to future signal processing,” Nat. Photonics 8(3), 205–213 (2014).
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S. R. Leone, C. W. McCurdy, J. Burgdorfer, L. S. Cederbaum, Z. Chang, N. Dudovich, J. Feist, C. H. Greene, M. Ivanov, R. Kienberger, U. Keller, M. F. Kling, Z. H. Loh, T. Pfeifer, A. N. Pfeiffer, R. Santra, K. Schafer, A. Stolow, U. Thumm, and M. J. J. Vrakking, “What will it take to observe processes in ‘real time’?” Nat. Photonics 8(3), 162–166 (2014).
[Crossref]

Südmeyer, T.

Thumm, U.

S. R. Leone, C. W. McCurdy, J. Burgdorfer, L. S. Cederbaum, Z. Chang, N. Dudovich, J. Feist, C. H. Greene, M. Ivanov, R. Kienberger, U. Keller, M. F. Kling, Z. H. Loh, T. Pfeifer, A. N. Pfeiffer, R. Santra, K. Schafer, A. Stolow, U. Thumm, and M. J. J. Vrakking, “What will it take to observe processes in ‘real time’?” Nat. Photonics 8(3), 162–166 (2014).
[Crossref]

Tisch, J. W. G.

D. Fabris, T. Witting, W. A. Okell, D. J. Walke, P. Matia-Hernando, J. Henkel, T. R. Barillot, M. Lein, J. P. Marangos, and J. W. G. Tisch, “Synchronized pulses generated at 20 eV and 90 eV for attosecond pump–probe experiments,” Nat. Photonics 9(6), 383–387 (2015).
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Tokita, S.

Trebino, R.

Trubetskov, M.

Tsou, Y. J.

Tünnermann, A.

Udem, T.

Ueffing, M.

Uiberacker, M.

E. Goulielmakis, M. Uiberacker, R. Kienberger, A. Baltuska, V. Yakovlev, A. Scrinzi, T. Westerwalbesloh, U. Kleineberg, U. Heinzmann, M. Drescher, and F. Krausz, “Direct measurement of light waves,” Science 305(5688), 1267–1269 (2004).
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Vernaleken, A.

Voss, A.

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C. H. Lu, T. Witting, A. Husakou, M. J. J. Vrakking, A. H. Kung, and F. J. Furch, “Sub-4 fs laser pulses at high average power and high repetition rate from an all-solid-state setup,” Opt. Express 26(7), 8941–8956 (2018).
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F. J. Furch, T. Witting, A. Giree, C. Luan, F. Schell, G. Arisholm, C. P. Schulz, and M. J. J. Vrakking, “CEP-stable few-cycle pulses with more than 190 μJ of energy at 100 kHz from a noncollinear optical parametric amplifier,” Opt. Lett. 42(13), 2495–2498 (2017).
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Westerwalbesloh, T.

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A. Giesen, H. Hugel, A. Voss, K. Wittig, U. Brauch, and H. Opower, “Scalable concept for diode-pumped high-power solid-state lasers,” Appl. Phys. B 58(5), 365 (1994).
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E. Goulielmakis, M. Uiberacker, R. Kienberger, A. Baltuska, V. Yakovlev, A. Scrinzi, T. Westerwalbesloh, U. Kleineberg, U. Heinzmann, M. Drescher, and F. Krausz, “Direct measurement of light waves,” Science 305(5688), 1267–1269 (2004).
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Yang, S. D.

P. C. Huang, C. H. García, J. T. Huang, P. Y. Huang, C. H. Lu, L. Rego, D. D. Hickstein, J. L. Ellis, A. J. Becker, A. Becker, S. D. Yang, C. G. Durfee, L. Plaja, H. C. Kapteyn, M. M. Murnane, A. H. Kung, and M. C. Chen, “Polarization control of isolated high-harmonic pulses,” Nat. Photonics 12(6), 349–354 (2018).

C. H. Lu, Y. J. Tsou, H. Y. Chen, B. H. Chen, Y. C. Cheng, S. D. Yang, M. C. Chen, C. C. Hsu, and A. H. Kung, “Generation of intense supercontinuum in condensed media,” Optica 1(6), 400–406 (2014).
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D. D. Hickstein, F. J. Dollar, P. Grychtol, J. L. Ellis, R. Knut, C. Hernández-García, D. Zusin, C. Gentry, J. M. Shaw, T. Fan, K. M. Dorney, A. Becker, A. Jaroń-Becker, H. C. Kapteyn, M. M. Murnane, and C. G. Durfee, “Non-collinear generation of angularly isolated circularly polarized high harmonics,” Nat. Photonics 9(11), 743–750 (2015).
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Appl. Phys. B (1)

A. Giesen, H. Hugel, A. Voss, K. Wittig, U. Brauch, and H. Opower, “Scalable concept for diode-pumped high-power solid-state lasers,” Appl. Phys. B 58(5), 365 (1994).
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Appl. Phys. Lett. (1)

J. E. Beetar, S. Gholam-Mirzaei, and M. Chini, “Spectral broadening and pulse compression of a 400 μJ, 20 W Yb:KGW laser using a multi-plate medium,” Appl. Phys. Lett. 112(5), 051102 (2018).
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Nat. Photonics (6)

S. R. Leone, C. W. McCurdy, J. Burgdorfer, L. S. Cederbaum, Z. Chang, N. Dudovich, J. Feist, C. H. Greene, M. Ivanov, R. Kienberger, U. Keller, M. F. Kling, Z. H. Loh, T. Pfeifer, A. N. Pfeiffer, R. Santra, K. Schafer, A. Stolow, U. Thumm, and M. J. J. Vrakking, “What will it take to observe processes in ‘real time’?” Nat. Photonics 8(3), 162–166 (2014).
[Crossref]

D. Fabris, T. Witting, W. A. Okell, D. J. Walke, P. Matia-Hernando, J. Henkel, T. R. Barillot, M. Lein, J. P. Marangos, and J. W. G. Tisch, “Synchronized pulses generated at 20 eV and 90 eV for attosecond pump–probe experiments,” Nat. Photonics 9(6), 383–387 (2015).
[Crossref]

D. D. Hickstein, F. J. Dollar, P. Grychtol, J. L. Ellis, R. Knut, C. Hernández-García, D. Zusin, C. Gentry, J. M. Shaw, T. Fan, K. M. Dorney, A. Becker, A. Jaroń-Becker, H. C. Kapteyn, M. M. Murnane, and C. G. Durfee, “Non-collinear generation of angularly isolated circularly polarized high harmonics,” Nat. Photonics 9(11), 743–750 (2015).
[Crossref]

F. Lépine, M. Ivanov, and M. J. J. Vrakking, “Attosecond molecular dynamics: fact or fiction?” Nat. Photonics 8(3), 195–204 (2014).
[Crossref]

F. Krausz and M. I. Stockman, “Attosecond metrology: from electron capture to future signal processing,” Nat. Photonics 8(3), 205–213 (2014).
[Crossref]

P. C. Huang, C. H. García, J. T. Huang, P. Y. Huang, C. H. Lu, L. Rego, D. D. Hickstein, J. L. Ellis, A. J. Becker, A. Becker, S. D. Yang, C. G. Durfee, L. Plaja, H. C. Kapteyn, M. M. Murnane, A. H. Kung, and M. C. Chen, “Polarization control of isolated high-harmonic pulses,” Nat. Photonics 12(6), 349–354 (2018).

Opt. Express (7)

Y. C. Cheng, C. H. Lu, Y. Y. Lin, and A. H. Kung, “Supercontinuum generation in a multi-plate medium,” Opt. Express 24(7), 7224–7231 (2016).
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C. H. Lu, T. Witting, A. Husakou, M. J. J. Vrakking, A. H. Kung, and F. J. Furch, “Sub-4 fs laser pulses at high average power and high repetition rate from an all-solid-state setup,” Opt. Express 26(7), 8941–8956 (2018).
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M. Seidel, G. Arisholm, J. Brons, V. Pervak, and O. Pronin, “All solid-state spectral broadening: an average and peak power scalable method for compression of ultrashort pulses,” Opt. Express 24(9), 9412–9428 (2016).
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B. H. Chen, M. Kretschmar, D. Ehberger, A. Blumenstein, P. Simon, P. Baum, and T. Nagy, “Compression of picosecond pulses from a thin-disk laser to 30fs at 4W average power,” Opt. Express 26(4), 3861–3869 (2018).
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L. Lavenu, M. Natile, F. Guichard, Y. Zaouter, M. Hanna, E. Mottay, and P. Georges, “High-energy few-cycle Yb-doped fiber amplifier source based on a single nonlinear compression stage,” Opt. Express 25(7), 7530–7537 (2017).
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X. Guo, S. Tokita, K. Yoshii, H. Nishioka, and J. Kawanaka, “Generation of 300 nm bandwidth 0.5 mJ pulses near 1 μm in a single stage gas filled hollow core fiber,” Opt. Express 25(18), 21171–21179 (2017).
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Opt. Lett. (8)

L. Lavenu, M. Natile, F. Guichard, Y. Zaouter, X. Delen, M. Hanna, E. Mottay, and P. Georges, “Nonlinear pulse compression based on a gas-filled multipass cell,” Opt. Lett. 43(10), 2252–2255 (2018).
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M. Ueffing, S. Reiger, M. Kaumanns, V. Pervak, M. Trubetskov, T. Nubbemeyer, and F. Krausz, “Nonlinear pulse compression in a gas-filled multipass cell,” Opt. Lett. 43(9), 2070–2073 (2018).
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Optica (2)

Sci. Rep. (1)

Y.-G. Jeong, R. Piccoli, D. Ferachou, V. Cardin, M. Chini, S. Hädrich, J. Limpert, R. Morandotti, F. Légaré, B. E. Schmidt, and L. Razzari, “Direct compression of 170-fs 50-cycle pulses down to 1.5 cycles with 70% transmission,” Sci. Rep. 8(1), 11794 (2018).
[Crossref] [PubMed]

Science (1)

E. Goulielmakis, M. Uiberacker, R. Kienberger, A. Baltuska, V. Yakovlev, A. Scrinzi, T. Westerwalbesloh, U. Kleineberg, U. Heinzmann, M. Drescher, and F. Krausz, “Direct measurement of light waves,” Science 305(5688), 1267–1269 (2004).
[Crossref] [PubMed]

Other (1)

C. H. Lu, B. H. Chen, Y. C. Cheng, and A. H. Kung, in High-Brightness Sources and Light-Driven Interactions, “Multi-plate generation and compression of an intense supercontinuum pulse,”OSA Technical Digest (online) (Optical Society of America, 2016), paper HS4B.1.

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Figures (7)

Fig. 1
Fig. 1 Schematic of the experimental setup of two-stage pulse compression using multiple thin plates at 1 kHz repetition rate. The beam profiles of photographic images are recorded at 1 m after the collimated lens in the first (top) and second (bottom) MPC stages respectively. Note that the beam profile is taken when the iris is fully opened. SLM: spatial light modulator. TL: transform limited pulse duration. W1 is an uncoated wedge that reflects 3.7% of the incident light to prevent optical damage to the SLM (Jenoptik, SLM-S640).
Fig. 2
Fig. 2 (a) Spectral broadening as a result of different number of plates in the first MPC stage. (b) The output power of the first MPC stage measured over 8 hours. The left inset shows the focusing beam profile of the incident pulses, while the right inset represents the MPC focusing profile.
Fig. 3
Fig. 3 PG-XFROG measurement of compressed MPC after two bounces off custom-tailored chirped mirrors. (a) Reconstructed spectral intensity (blue) and spectral phase (green), and the original spectrum recorded by a spectrometer (red). (b) Reconstructed temporal intensity (blue) and phase (green) of the pulse. It shows that the pulse is compressed close to the TL-pulse. The final FWHM of the intensity profile is 30.6 fs.
Fig. 4
Fig. 4 (a) Spectral broadening in log scale with different number of plates in the second MPC stage. (b) Power measurement showing good long-term stability over more than 8 hours.
Fig. 5
Fig. 5 Spectral broadening with different number of plates in the (a) first, and (b) second MPC stage, respectively. Spectra in (a) was recorded in an InGaAs spectrometer, and in (b) in both InGaAs and Si spectrometers.
Fig. 6
Fig. 6 PG-XFROG measurement of 100 kHz compressed pulses after the first MPC stage. (a) Reconstructed spectral intensity (red) and spectral phase (green); spectrum as it is recorded by an InGaAs spectrometer (blue). (b) Reconstructed temporal intensity (red) and phase (green) of the pulse.
Fig. 7
Fig. 7 PG-XFROG measurement of compressed pulse after the second 1 kHz MPC stage. (a) Reconstructed spectral intensity (blue) and spectral phase (green). The original spectrum was recorded by a spectrometer (red) (b) Reconstructed temporal intensity (blue) and phase (green) of the pulse. The FWHM of the reconstructed intensity envelope is 3.21 fs.

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