Abstract

Ultrafast high-power lasers are employed in a wide variety of applications in science and industry. Thin-disk oscillators can offer compelling performance for these applications. However, because of the high intracavity peak power, a large amount of self-phase modulation (SPM) is picked up in the intracavity air environment. Consequently, the highest performance oscillators have been operated in a vacuum environment. Here, we introduce a new concept to overcome this hurdle. We cancel the SPM picked up in air by introducing an intracavity phase-mismatched second-harmonic-generation crystal. The resulting cascaded χ(2) processes provide a large SPM with a sign opposite the one originating from the air. This enables laser operation in air at 210 W average output power with 780 fs, 19 μJ pulses, the highest output power of any semiconductor saturable absorber mirror (SESAM) modelocked laser operated in air to date, to the best of our knowledge. This result paves the way to a novel approach for nonlinearity management in high-power lasers.

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

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O. Razskazovskaya, T. T. Luu, M. Trubetskov, E. Goulielmakis, and V. Pervak, Optica 2, 803 (2015).
[Crossref]

2014 (4)

2012 (3)

2010 (1)

2008 (2)

2002 (1)

F. Wise, L. Qian, and X. Liu, J. Nonlinear Opt. Phys. Mater. 11, 317 (2002).
[Crossref]

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H. P. Li, C. H. Kam, Y. L. Lam, and W. Ji, Opt. Mater. 15, 237 (2001).
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T. R. Schibli, E. R. Thoen, F. X. Kärtner, and E. P. Ippen, Appl. Phys. B 70, S41 (2000).
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Apolonskiy, A.

Aspelmeyer, M.

Bache, M.

Baer, C. R. E.

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C. J. Saraceno, C. Schriber, M. Mangold, M. Hoffmann, O. H. Heckl, C. R. E. Baer, M. Golling, T. Südmeyer, and U. Keller, IEEE J. Sel. Top. Quantum Electron. 18, 29 (2012).
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P. Russbueldt, D. Hoffmann, M. Hoefer, J. Loehring, J. Luttmann, A. Meissner, J. Weitenberg, M. Traub, T. Sartorius, D. Esser, R. Wester, P. Loosen, and R. Poprawe, IEEE J. Sel. Top. Quantum Electron. 21, 3100117 (2015).
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Gorjan, M.

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C. J. Saraceno, F. Emaury, O. H. Heckl, C. R. E. Baer, M. Hoffmann, C. Schriber, M. Golling, T. Südmeyer, and U. Keller, Opt. Express 20, 23535 (2012).
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Ji, W.

H. P. Li, C. H. Kam, Y. L. Lam, and W. Ji, Opt. Mater. 15, 237 (2001).
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Jung, I. D.

F. X. Kärtner, I. D. Jung, and U. Keller, IEEE J. Sel. Top. Quantum 2, 540 (1996).
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Kalashnikov, V.

Kam, C. H.

H. P. Li, C. H. Kam, Y. L. Lam, and W. Ji, Opt. Mater. 15, 237 (2001).
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T. R. Schibli, E. R. Thoen, F. X. Kärtner, and E. P. Ippen, Appl. Phys. B 70, S41 (2000).
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F. X. Kärtner, I. D. Jung, and U. Keller, IEEE J. Sel. Top. Quantum 2, 540 (1996).
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Keller, U.

F. Saltarelli, A. Diebold, I. J. Graumann, C. R. Phillips, and U. Keller, Opt. Express 25, 23254 (2017).
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A. S. Mayer, C. R. Phillips, and U. Keller, Nat. Commun. 8, 1673 (2017).
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A. Diebold, T. Zengerle, C. G. E. Alfieri, C. Schriber, F. Emaury, M. Mangold, M. Hoffmann, C. J. Saraceno, M. Golling, D. Follman, G. D. Cole, M. Aspelmeyer, T. Südmeyer, and U. Keller, Opt. Express 24, 10512 (2016).
[Crossref]

C. J. Saraceno, F. Emaury, C. Schriber, A. Diebold, M. Hoffmann, M. Golling, T. Südmeyer, and U. Keller, IEEE J. Sel. Top. Quantum Electron. 21, 1100318 (2015).
[Crossref]

F. Emaury, A. Diebold, C. J. Saraceno, and U. Keller, Optica 2, 980 (2015).
[Crossref]

C. R. Phillips, A. S. Mayer, A. Klenner, and U. Keller, Opt. Express 22, 6060 (2014).
[Crossref]

C. J. Saraceno, F. Emaury, C. Schriber, M. Hoffmann, M. Golling, T. Südmeyer, and U. Keller, Opt. Lett. 39, 9 (2014).
[Crossref]

C. J. Saraceno, C. Schriber, M. Mangold, M. Hoffmann, O. H. Heckl, C. R. E. Baer, M. Golling, T. Südmeyer, and U. Keller, IEEE J. Sel. Top. Quantum Electron. 18, 29 (2012).
[Crossref]

C. J. Saraceno, F. Emaury, O. H. Heckl, C. R. E. Baer, M. Hoffmann, C. Schriber, M. Golling, T. Südmeyer, and U. Keller, Opt. Express 20, 23535 (2012).
[Crossref]

D. J. H. C. Maas, B. Rudin, A.-R. Bellancourt, D. Iwaniuk, S. V. Marchese, T. Südmeyer, and U. Keller, Opt. Express 16, 7571 (2008).
[Crossref]

F. X. Kärtner, I. D. Jung, and U. Keller, IEEE J. Sel. Top. Quantum 2, 540 (1996).
[Crossref]

Kienel, M.

Killi, A.

Klenke, A.

Klenner, A.

Knappe, R.

B. Borchers, C. Schaefer, C. Fries, M. Larionov, and R. Knappe, in Advanced Solid State Lasers (OSA, 2015), paper ATh4A.9.

Krausz, F.

Krolikowski, W.

Kucinskas, D.

Lam, Y. L.

H. P. Li, C. H. Kam, Y. L. Lam, and W. Ji, Opt. Mater. 15, 237 (2001).
[Crossref]

Larionov, M.

B. Borchers, C. Schaefer, C. Fries, M. Larionov, and R. Knappe, in Advanced Solid State Lasers (OSA, 2015), paper ATh4A.9.

Laurell, F.

Li, H. P.

H. P. Li, C. H. Kam, Y. L. Lam, and W. Ji, Opt. Mater. 15, 237 (2001).
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Limpert, J.

Lindberg, R.

Liu, X.

F. Wise, L. Qian, and X. Liu, J. Nonlinear Opt. Phys. Mater. 11, 317 (2002).
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L. J. Qian, X. Liu, and F. W. Wise, Opt. Lett. 24, 166 (1999).
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Loehring, J.

P. Russbueldt, D. Hoffmann, M. Hoefer, J. Loehring, J. Luttmann, A. Meissner, J. Weitenberg, M. Traub, T. Sartorius, D. Esser, R. Wester, P. Loosen, and R. Poprawe, IEEE J. Sel. Top. Quantum Electron. 21, 3100117 (2015).
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P. Russbueldt, D. Hoffmann, M. Hoefer, J. Loehring, J. Luttmann, A. Meissner, J. Weitenberg, M. Traub, T. Sartorius, D. Esser, R. Wester, P. Loosen, and R. Poprawe, IEEE J. Sel. Top. Quantum Electron. 21, 3100117 (2015).
[Crossref]

Luttmann, J.

P. Russbueldt, D. Hoffmann, M. Hoefer, J. Loehring, J. Luttmann, A. Meissner, J. Weitenberg, M. Traub, T. Sartorius, D. Esser, R. Wester, P. Loosen, and R. Poprawe, IEEE J. Sel. Top. Quantum Electron. 21, 3100117 (2015).
[Crossref]

Luu, T. T.

Maas, D. J. H. C.

Magni, V.

Major, Z.

Mangold, M.

A. Diebold, T. Zengerle, C. G. E. Alfieri, C. Schriber, F. Emaury, M. Mangold, M. Hoffmann, C. J. Saraceno, M. Golling, D. Follman, G. D. Cole, M. Aspelmeyer, T. Südmeyer, and U. Keller, Opt. Express 24, 10512 (2016).
[Crossref]

C. J. Saraceno, C. Schriber, M. Mangold, M. Hoffmann, O. H. Heckl, C. R. E. Baer, M. Golling, T. Südmeyer, and U. Keller, IEEE J. Sel. Top. Quantum Electron. 18, 29 (2012).
[Crossref]

Marchese, S. V.

Mayer, A. S.

A. S. Mayer, C. R. Phillips, and U. Keller, Nat. Commun. 8, 1673 (2017).
[Crossref]

C. R. Phillips, A. S. Mayer, A. Klenner, and U. Keller, Opt. Express 22, 6060 (2014).
[Crossref]

Meissner, A.

P. Russbueldt, D. Hoffmann, M. Hoefer, J. Loehring, J. Luttmann, A. Meissner, J. Weitenberg, M. Traub, T. Sartorius, D. Esser, R. Wester, P. Loosen, and R. Poprawe, IEEE J. Sel. Top. Quantum Electron. 21, 3100117 (2015).
[Crossref]

Metzger, T.

Monguzzi, A.

Moses, J.

Müller, M.

Nubbemeyer, T.

Pasiskevicius, V.

Pervak, V.

Petrov, V.

Phillips, C. R.

Plötner, M.

Poprawe, R.

P. Russbueldt, D. Hoffmann, M. Hoefer, J. Loehring, J. Luttmann, A. Meissner, J. Weitenberg, M. Traub, T. Sartorius, D. Esser, R. Wester, P. Loosen, and R. Poprawe, IEEE J. Sel. Top. Quantum Electron. 21, 3100117 (2015).
[Crossref]

Pronin, O.

Qian, L.

F. Wise, L. Qian, and X. Liu, J. Nonlinear Opt. Phys. Mater. 11, 317 (2002).
[Crossref]

Qian, L. J.

Razskazovskaya, O.

Roides, R. G.

Rudin, B.

Russbueldt, P.

P. Russbueldt, D. Hoffmann, M. Hoefer, J. Loehring, J. Luttmann, A. Meissner, J. Weitenberg, M. Traub, T. Sartorius, D. Esser, R. Wester, P. Loosen, and R. Poprawe, IEEE J. Sel. Top. Quantum Electron. 21, 3100117 (2015).
[Crossref]

Saltarelli, F.

Saraceno, C. J.

Sartorius, T.

P. Russbueldt, D. Hoffmann, M. Hoefer, J. Loehring, J. Luttmann, A. Meissner, J. Weitenberg, M. Traub, T. Sartorius, D. Esser, R. Wester, P. Loosen, and R. Poprawe, IEEE J. Sel. Top. Quantum Electron. 21, 3100117 (2015).
[Crossref]

Schaefer, C.

B. Borchers, C. Schaefer, C. Fries, M. Larionov, and R. Knappe, in Advanced Solid State Lasers (OSA, 2015), paper ATh4A.9.

Schibli, T. R.

T. R. Schibli, E. R. Thoen, F. X. Kärtner, and E. P. Ippen, Appl. Phys. B 70, S41 (2000).
[Crossref]

Schriber, C.

Segala, D.

Shestaev, E.

Stanislauskas, T.

Stegeman, G. I.

G. I. Stegeman, D. J. Hagan, and L. Torner, Opt. Quantum Electron. 28, 1691 (1996).
[Crossref]

Südmeyer, T.

Sutter, D.

Sutter, D. H.

Thoen, E. R.

T. R. Schibli, E. R. Thoen, F. X. Kärtner, and E. P. Ippen, Appl. Phys. B 70, S41 (2000).
[Crossref]

Torner, L.

G. I. Stegeman, D. J. Hagan, and L. Torner, Opt. Quantum Electron. 28, 1691 (1996).
[Crossref]

Traub, M.

P. Russbueldt, D. Hoffmann, M. Hoefer, J. Loehring, J. Luttmann, A. Meissner, J. Weitenberg, M. Traub, T. Sartorius, D. Esser, R. Wester, P. Loosen, and R. Poprawe, IEEE J. Sel. Top. Quantum Electron. 21, 3100117 (2015).
[Crossref]

Trubetskov, M.

Tünnermann, A.

Ueffing, M.

Velsko, S. P.

S. P. Velsko, M. Webb, L. Davis, and C. Huang, IEEE J. Quantum Electron. 27, 2182 (1991).
[Crossref]

Viotti, A. L.

Webb, M.

S. P. Velsko, M. Webb, L. Davis, and C. Huang, IEEE J. Quantum Electron. 27, 2182 (1991).
[Crossref]

Weitenberg, J.

P. Russbueldt, D. Hoffmann, M. Hoefer, J. Loehring, J. Luttmann, A. Meissner, J. Weitenberg, M. Traub, T. Sartorius, D. Esser, R. Wester, P. Loosen, and R. Poprawe, IEEE J. Sel. Top. Quantum Electron. 21, 3100117 (2015).
[Crossref]

Wester, R.

P. Russbueldt, D. Hoffmann, M. Hoefer, J. Loehring, J. Luttmann, A. Meissner, J. Weitenberg, M. Traub, T. Sartorius, D. Esser, R. Wester, P. Loosen, and R. Poprawe, IEEE J. Sel. Top. Quantum Electron. 21, 3100117 (2015).
[Crossref]

Wise, F.

F. Wise, L. Qian, and X. Liu, J. Nonlinear Opt. Phys. Mater. 11, 317 (2002).
[Crossref]

Wise, F. W.

Zawischa, I.

Zengerle, T.

Zuegel, J. D.

Zukauskas, A.

Appl. Phys. B (1)

T. R. Schibli, E. R. Thoen, F. X. Kärtner, and E. P. Ippen, Appl. Phys. B 70, S41 (2000).
[Crossref]

IEEE J. Quantum Electron. (1)

S. P. Velsko, M. Webb, L. Davis, and C. Huang, IEEE J. Quantum Electron. 27, 2182 (1991).
[Crossref]

IEEE J. Sel. Top. Quantum (1)

F. X. Kärtner, I. D. Jung, and U. Keller, IEEE J. Sel. Top. Quantum 2, 540 (1996).
[Crossref]

IEEE J. Sel. Top. Quantum Electron. (3)

P. Russbueldt, D. Hoffmann, M. Hoefer, J. Loehring, J. Luttmann, A. Meissner, J. Weitenberg, M. Traub, T. Sartorius, D. Esser, R. Wester, P. Loosen, and R. Poprawe, IEEE J. Sel. Top. Quantum Electron. 21, 3100117 (2015).
[Crossref]

C. J. Saraceno, F. Emaury, C. Schriber, A. Diebold, M. Hoffmann, M. Golling, T. Südmeyer, and U. Keller, IEEE J. Sel. Top. Quantum Electron. 21, 1100318 (2015).
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Supplementary Material (1)

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» Supplement 1       Supplementary information

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Figures (5)

Fig. 1.
Fig. 1. Overview of the GDD used in TDLs with respect to their output pulse energy. Our result, due to the use of cascaded χ(2) nonlinearities, overcomes the tradeoff in GDD versus pulse energy typical of standard TDL, lying in a region previously accessible only through expensive vacuum systems. For the non-labeled results, the average output power is below 100 W. All references can be found in Supplement 1.
Fig. 2.
Fig. 2. Schematic of the compact laser cavity including multiple bounces on the disk. The photodiode, through a band-pass green filter, measures the green leakage of a HR mirror. The presented beam profile is obtained in modelocked operation at 210 W output power.
Fig. 3.
Fig. 3. Round-trip SHG losses (a) and SPM cancellation (b) due to the CQN device. By operating the crystal in a SHG minimum, few-0.1% losses can be obtained while canceling most of the SPM from air.
Fig. 4.
Fig. 4. Laser slopes: output power (a) and pulse duration (b) as a function of the pump power. Different colors refer to different phase mismatch values Δk of the SHG crystal.
Fig. 5.
Fig. 5. Laser diagnostics at the maximum output power (210 W, 780 fs, 19 μJ). (a) Optical spectrum; (b) intensity autocorrelator; (c)–(d) RF spectra with 0-dBc marked by black dashed line; (e) M2 measurement; (f) sampling oscilloscope trace. RBW, resolution bandwidth. The autocorrelation trace and the optical spectrum are fitted with a sech2 function (red dashed line). The 1/e2 beam width is calculated using the second momentum (D4σ).

Tables (1)

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Table 1. Laser Parameters for τp800fsa

Equations (2)

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BCQN,spξLIpk/Δk,
ηCQN,sp0.83ξ(δL)2Ipk/(Δkτp)2,

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