Abstract

A stable passive mode-locking Nd:LuAG laser at 1338 nm with a semiconductor saturable absorber mirror (SESAM) is demonstrated for the first time. The mode-locking Nd:LuAG laser yielded a maximum average output power of 0.54Wwith a slope efficiency of 10.2%. The corresponding shortest pulse duration was 18.3 ps with a signal-to-noise ratio of 63 dB under a pulse repetition rate of46.9MHz. This work indicates that the Nd:LuAG crystal is a promising candidate for realizing picosecond lasers around 1.3 μm spectral region.

© 2015 Optical Society of America

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    [Crossref]
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    [Crossref]
  3. U. Keller, D. A. B. Miller, G. D. Boyd, T. H. Chiu, J. F. Ferguson, and M. T. Asom, “Solid-state low-loss intracavity saturable absorber for Nd:YLF lasers: an antiresonant semiconductor Fabry-Perot saturable absorber,” Opt. Lett. 17(7), 505–507 (1992).
    [Crossref] [PubMed]
  4. Y. S. Set, H. Yaguchi, Y. Tanaka, and M. Jablonski, “Laser Mode Locking Using a Saturable Absorber Incorporating Carbon Nanotubes,” J. Lightwave Technol. 22(1), 51–56 (2004).
    [Crossref]
  5. Q. L. Bao, H. Zhang, Y. Wang, Z. H. Ni, Z. X. Shen, K. P. Loh, and D. Y. Tang, “Atomic layer graphene as saturable absorber for ultrafast pulsed lasers,” Adv. Funct. Mater. 19(19), 3077–3083 (2009).
    [Crossref]
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  22. X. D. Xu, X. D. Wang, J. Q. Meng, Y. Cheng, D. Z. Li, S. S. Cheng, F. Wu, Z. W. Zhao, and J. Xu, “Crystal growth, spectral and laser properties of Nd:LuAG single crystal,” Laser Phys. Lett. 6(9), 678–681 (2009).
    [Crossref]
  23. B. Braun, K. J. Weingarten, F. X. Kärtner, and U. Keller, “Continuous-wave mode-locked solid-state lasers with enhanced spatial hole burning,” Appl. Phys. B 61(5), 429–437 (1995).
    [Crossref]
  24. C. Hönninger, R. Paschotta, F. Morier-Genoud, M. Moser, and U. Keller, “Q-switching stability limits of continuous-wave passive mode locking,” J. Opt. Soc. Am. B 16(1), 46–56 (1999).
    [Crossref]

2015 (2)

2014 (1)

X. T. Chen, S. Z. Zhao, J. Zhao, K. J. Yang, G. Q. Li, D. C. Li, W. C. Qiao, T. Li, H. J. Zhang, T. L. Feng, X. D. Xu, L. H. Zheng, J. Xu, Y. G. Wang, and Y. S. Wang, “Sub-100ns passively Q-switched Nd:LuAG laser with multi-walled carbon nanotube,” Opt. Laser Technol. 64, 7–10 (2014).
[Crossref]

2013 (2)

Y. Yang, J. Hou, J. He, J. Xu, H. Yang, F. Lou, Z. Wang, R. Wang, and X. Liu, “1342 nm High-Power Picosecond Pulse Generation by a Passively Mode-Locked Nd:YVO4 Laser,” IEEE Photonics Technol. Lett. 25(15), 1506–1509 (2013).
[Crossref]

Y. Yang, Z. Jia, J. He, J. Xu, B. Zhang, R. Wang, X. Liu, J. Hou, F. Lou, Z. Wang, H. Yang, and X. Tao, “Dual-wavelength synchronously passively mode-locked Nd:LGGG 1.3 μm laser with SESAM,” Laser Phys. Lett. 10(4), 045807 (2013).
[Crossref]

2012 (4)

H. Iliev, I. Buchvarov, S. Y. Choi, K. Kim, F. Rotermund, U. Griebner, and V. Petrov, “Steady state mode-locking of a 1.34 μm Nd:YVO4 laser using a single-walled carbon nanotube saturable absorber,” Appl. Phys. B 106(1), 1–4 (2012).
[Crossref]

Y. Yang, X. Yang, Z. Jia, J. Xu, J. He, S. Liu, B. Zhang, and H. Yang, “Diode-pumped passively mode-locked Nd:GGG laser at 1331.3 nm,” Laser Phys. Lett. 9(7), 481–484 (2012).
[Crossref]

X. Xu, J. Di, W. Tan, J. Zhang, D. Tang, D. Li, D. H. Zhou, and J. Xu, “High efficient diode-pumped passively mode-locked Nd:LuAG laser,” Laser Phys. Lett. 9(6), 406–409 (2012).
[Crossref]

J. L. Xu, X. L. Li, J. L. He, X. P. Hao, Y. Yang, Y. Z. Wu, S. D. Liu, and B. T. Zhang, “Efficient graphene Q switching and mode locking of 1.34 μm neodymium lasers,” Opt. Lett. 37(13), 2652–2654 (2012).
[Crossref] [PubMed]

2011 (3)

2010 (1)

2009 (3)

X. D. Xu, X. D. Wang, J. Q. Meng, Y. Cheng, D. Z. Li, S. S. Cheng, F. Wu, Z. W. Zhao, and J. Xu, “Crystal growth, spectral and laser properties of Nd:LuAG single crystal,” Laser Phys. Lett. 6(9), 678–681 (2009).
[Crossref]

Z. Wang, H. Liu, J. Wang, Y. Lv, Y. Sang, R. Lan, H. Yu, X. Xu, and Z. Shao, “Passively Q-switched dual-wavelength laser output of LD-end-pumped ceramic Nd:YAG laser,” Opt. Express 17(14), 12076–12081 (2009).
[Crossref] [PubMed]

Q. L. Bao, H. Zhang, Y. Wang, Z. H. Ni, Z. X. Shen, K. P. Loh, and D. Y. Tang, “Atomic layer graphene as saturable absorber for ultrafast pulsed lasers,” Adv. Funct. Mater. 19(19), 3077–3083 (2009).
[Crossref]

2008 (1)

2004 (2)

Y. S. Set, H. Yaguchi, Y. Tanaka, and M. Jablonski, “Laser Mode Locking Using a Saturable Absorber Incorporating Carbon Nanotubes,” J. Lightwave Technol. 22(1), 51–56 (2004).
[Crossref]

V. Liverini, S. Schon, R. Grange, M. Haiml, S. C. Zeller, and U. Keller, “Low-loss GaInNAs saturable absorber mode locking a 1.3-μm solid-state laser,” Appl. Phys. Lett. 84(20), 4002–4004 (2004).
[Crossref]

1999 (1)

1997 (1)

R. Moncorgé, B. Chambona, J. Y. Rivoirea, N. Garnierb, E. Descroixb, P. Laporteb, H. Guilletc, S. Royc, J. Mareschald, D. Pelencd, J. Dourye, and P. Farge, “Nd doped crystals for medical laser applications,” Opt. Mater. 8(1-2), 109–119 (1997).
[Crossref]

1995 (1)

B. Braun, K. J. Weingarten, F. X. Kärtner, and U. Keller, “Continuous-wave mode-locked solid-state lasers with enhanced spatial hole burning,” Appl. Phys. B 61(5), 429–437 (1995).
[Crossref]

1992 (1)

Aleksandrov, V.

V. Aleksandrov, H. Iliev, and I. Buchvarov, “χ2-Lens Mode-Locking of a Nd:YVO4 Laser with High Average Power and Repetition Rate up to 600 MHz,” CLEO JW2A. 76, 1–3 (2015).

Asom, M. T.

Bao, Q. L.

Q. L. Bao, H. Zhang, Y. Wang, Z. H. Ni, Z. X. Shen, K. P. Loh, and D. Y. Tang, “Atomic layer graphene as saturable absorber for ultrafast pulsed lasers,” Adv. Funct. Mater. 19(19), 3077–3083 (2009).
[Crossref]

Boyd, G. D.

Braun, B.

B. Braun, K. J. Weingarten, F. X. Kärtner, and U. Keller, “Continuous-wave mode-locked solid-state lasers with enhanced spatial hole burning,” Appl. Phys. B 61(5), 429–437 (1995).
[Crossref]

Buchvarov, I.

V. Aleksandrov, H. Iliev, and I. Buchvarov, “χ2-Lens Mode-Locking of a Nd:YVO4 Laser with High Average Power and Repetition Rate up to 600 MHz,” CLEO JW2A. 76, 1–3 (2015).

H. Iliev, I. Buchvarov, S. Y. Choi, K. Kim, F. Rotermund, U. Griebner, and V. Petrov, “Steady state mode-locking of a 1.34 μm Nd:YVO4 laser using a single-walled carbon nanotube saturable absorber,” Appl. Phys. B 106(1), 1–4 (2012).
[Crossref]

Chambona, B.

R. Moncorgé, B. Chambona, J. Y. Rivoirea, N. Garnierb, E. Descroixb, P. Laporteb, H. Guilletc, S. Royc, J. Mareschald, D. Pelencd, J. Dourye, and P. Farge, “Nd doped crystals for medical laser applications,” Opt. Mater. 8(1-2), 109–119 (1997).
[Crossref]

Chen, C. D.

Chen, X.

Chen, X. T.

X. T. Chen, S. Z. Zhao, J. Zhao, K. J. Yang, G. Q. Li, D. C. Li, W. C. Qiao, T. Li, H. J. Zhang, T. L. Feng, X. D. Xu, L. H. Zheng, J. Xu, Y. G. Wang, and Y. S. Wang, “Sub-100ns passively Q-switched Nd:LuAG laser with multi-walled carbon nanotube,” Opt. Laser Technol. 64, 7–10 (2014).
[Crossref]

Cheng, S. S.

X. D. Xu, X. D. Wang, J. Q. Meng, Y. Cheng, D. Z. Li, S. S. Cheng, F. Wu, Z. W. Zhao, and J. Xu, “Crystal growth, spectral and laser properties of Nd:LuAG single crystal,” Laser Phys. Lett. 6(9), 678–681 (2009).
[Crossref]

Cheng, Y.

X. D. Xu, X. D. Wang, J. Q. Meng, Y. Cheng, D. Z. Li, S. S. Cheng, F. Wu, Z. W. Zhao, and J. Xu, “Crystal growth, spectral and laser properties of Nd:LuAG single crystal,” Laser Phys. Lett. 6(9), 678–681 (2009).
[Crossref]

Chiu, T. H.

Choi, S. Y.

H. Iliev, I. Buchvarov, S. Y. Choi, K. Kim, F. Rotermund, U. Griebner, and V. Petrov, “Steady state mode-locking of a 1.34 μm Nd:YVO4 laser using a single-walled carbon nanotube saturable absorber,” Appl. Phys. B 106(1), 1–4 (2012).
[Crossref]

Descroixb, E.

R. Moncorgé, B. Chambona, J. Y. Rivoirea, N. Garnierb, E. Descroixb, P. Laporteb, H. Guilletc, S. Royc, J. Mareschald, D. Pelencd, J. Dourye, and P. Farge, “Nd doped crystals for medical laser applications,” Opt. Mater. 8(1-2), 109–119 (1997).
[Crossref]

Di, J.

X. Xu, J. Di, W. Tan, J. Zhang, D. Tang, D. Li, D. H. Zhou, and J. Xu, “High efficient diode-pumped passively mode-locked Nd:LuAG laser,” Laser Phys. Lett. 9(6), 406–409 (2012).
[Crossref]

Ding, L. H.

L. H. Ding, Q. L. Zhang, J. Q. Luo, W. P. Liu, W. L. Zhou, and S. T. Yin, “Preparation, structure and photoluminescence of nanoscaled-Nd:Lu3Al5O12,” J. Alloys Compd. 509(42), 10167–10171 (2011).
[Crossref]

Dourye, J.

R. Moncorgé, B. Chambona, J. Y. Rivoirea, N. Garnierb, E. Descroixb, P. Laporteb, H. Guilletc, S. Royc, J. Mareschald, D. Pelencd, J. Dourye, and P. Farge, “Nd doped crystals for medical laser applications,” Opt. Mater. 8(1-2), 109–119 (1997).
[Crossref]

Farge, P.

R. Moncorgé, B. Chambona, J. Y. Rivoirea, N. Garnierb, E. Descroixb, P. Laporteb, H. Guilletc, S. Royc, J. Mareschald, D. Pelencd, J. Dourye, and P. Farge, “Nd doped crystals for medical laser applications,” Opt. Mater. 8(1-2), 109–119 (1997).
[Crossref]

Feng, T.

Feng, T. L.

X. T. Chen, S. Z. Zhao, J. Zhao, K. J. Yang, G. Q. Li, D. C. Li, W. C. Qiao, T. Li, H. J. Zhang, T. L. Feng, X. D. Xu, L. H. Zheng, J. Xu, Y. G. Wang, and Y. S. Wang, “Sub-100ns passively Q-switched Nd:LuAG laser with multi-walled carbon nanotube,” Opt. Laser Technol. 64, 7–10 (2014).
[Crossref]

Ferguson, J. F.

Garnierb, N.

R. Moncorgé, B. Chambona, J. Y. Rivoirea, N. Garnierb, E. Descroixb, P. Laporteb, H. Guilletc, S. Royc, J. Mareschald, D. Pelencd, J. Dourye, and P. Farge, “Nd doped crystals for medical laser applications,” Opt. Mater. 8(1-2), 109–119 (1997).
[Crossref]

Grange, R.

V. Liverini, S. Schon, R. Grange, M. Haiml, S. C. Zeller, and U. Keller, “Low-loss GaInNAs saturable absorber mode locking a 1.3-μm solid-state laser,” Appl. Phys. Lett. 84(20), 4002–4004 (2004).
[Crossref]

Griebner, U.

H. Iliev, I. Buchvarov, S. Y. Choi, K. Kim, F. Rotermund, U. Griebner, and V. Petrov, “Steady state mode-locking of a 1.34 μm Nd:YVO4 laser using a single-walled carbon nanotube saturable absorber,” Appl. Phys. B 106(1), 1–4 (2012).
[Crossref]

Guilletc, H.

R. Moncorgé, B. Chambona, J. Y. Rivoirea, N. Garnierb, E. Descroixb, P. Laporteb, H. Guilletc, S. Royc, J. Mareschald, D. Pelencd, J. Dourye, and P. Farge, “Nd doped crystals for medical laser applications,” Opt. Mater. 8(1-2), 109–119 (1997).
[Crossref]

Haiml, M.

V. Liverini, S. Schon, R. Grange, M. Haiml, S. C. Zeller, and U. Keller, “Low-loss GaInNAs saturable absorber mode locking a 1.3-μm solid-state laser,” Appl. Phys. Lett. 84(20), 4002–4004 (2004).
[Crossref]

Hao, X. P.

He, J.

Y. Yang, Z. Jia, J. He, J. Xu, B. Zhang, R. Wang, X. Liu, J. Hou, F. Lou, Z. Wang, H. Yang, and X. Tao, “Dual-wavelength synchronously passively mode-locked Nd:LGGG 1.3 μm laser with SESAM,” Laser Phys. Lett. 10(4), 045807 (2013).
[Crossref]

Y. Yang, J. Hou, J. He, J. Xu, H. Yang, F. Lou, Z. Wang, R. Wang, and X. Liu, “1342 nm High-Power Picosecond Pulse Generation by a Passively Mode-Locked Nd:YVO4 Laser,” IEEE Photonics Technol. Lett. 25(15), 1506–1509 (2013).
[Crossref]

Y. Yang, X. Yang, Z. Jia, J. Xu, J. He, S. Liu, B. Zhang, and H. Yang, “Diode-pumped passively mode-locked Nd:GGG laser at 1331.3 nm,” Laser Phys. Lett. 9(7), 481–484 (2012).
[Crossref]

He, J. L.

Hönninger, C.

Hou, J.

Y. Yang, Z. Jia, J. He, J. Xu, B. Zhang, R. Wang, X. Liu, J. Hou, F. Lou, Z. Wang, H. Yang, and X. Tao, “Dual-wavelength synchronously passively mode-locked Nd:LGGG 1.3 μm laser with SESAM,” Laser Phys. Lett. 10(4), 045807 (2013).
[Crossref]

Y. Yang, J. Hou, J. He, J. Xu, H. Yang, F. Lou, Z. Wang, R. Wang, and X. Liu, “1342 nm High-Power Picosecond Pulse Generation by a Passively Mode-Locked Nd:YVO4 Laser,” IEEE Photonics Technol. Lett. 25(15), 1506–1509 (2013).
[Crossref]

Hu, X. P.

Iliev, H.

V. Aleksandrov, H. Iliev, and I. Buchvarov, “χ2-Lens Mode-Locking of a Nd:YVO4 Laser with High Average Power and Repetition Rate up to 600 MHz,” CLEO JW2A. 76, 1–3 (2015).

H. Iliev, I. Buchvarov, S. Y. Choi, K. Kim, F. Rotermund, U. Griebner, and V. Petrov, “Steady state mode-locking of a 1.34 μm Nd:YVO4 laser using a single-walled carbon nanotube saturable absorber,” Appl. Phys. B 106(1), 1–4 (2012).
[Crossref]

Jablonski, M.

Jia, Z.

Y. Yang, Z. Jia, J. He, J. Xu, B. Zhang, R. Wang, X. Liu, J. Hou, F. Lou, Z. Wang, H. Yang, and X. Tao, “Dual-wavelength synchronously passively mode-locked Nd:LGGG 1.3 μm laser with SESAM,” Laser Phys. Lett. 10(4), 045807 (2013).
[Crossref]

Y. Yang, X. Yang, Z. Jia, J. Xu, J. He, S. Liu, B. Zhang, and H. Yang, “Diode-pumped passively mode-locked Nd:GGG laser at 1331.3 nm,” Laser Phys. Lett. 9(7), 481–484 (2012).
[Crossref]

Jiang, M.

Jiang, M. H.

Kärtner, F. X.

B. Braun, K. J. Weingarten, F. X. Kärtner, and U. Keller, “Continuous-wave mode-locked solid-state lasers with enhanced spatial hole burning,” Appl. Phys. B 61(5), 429–437 (1995).
[Crossref]

Keller, U.

V. Liverini, S. Schon, R. Grange, M. Haiml, S. C. Zeller, and U. Keller, “Low-loss GaInNAs saturable absorber mode locking a 1.3-μm solid-state laser,” Appl. Phys. Lett. 84(20), 4002–4004 (2004).
[Crossref]

C. Hönninger, R. Paschotta, F. Morier-Genoud, M. Moser, and U. Keller, “Q-switching stability limits of continuous-wave passive mode locking,” J. Opt. Soc. Am. B 16(1), 46–56 (1999).
[Crossref]

B. Braun, K. J. Weingarten, F. X. Kärtner, and U. Keller, “Continuous-wave mode-locked solid-state lasers with enhanced spatial hole burning,” Appl. Phys. B 61(5), 429–437 (1995).
[Crossref]

U. Keller, D. A. B. Miller, G. D. Boyd, T. H. Chiu, J. F. Ferguson, and M. T. Asom, “Solid-state low-loss intracavity saturable absorber for Nd:YLF lasers: an antiresonant semiconductor Fabry-Perot saturable absorber,” Opt. Lett. 17(7), 505–507 (1992).
[Crossref] [PubMed]

Kim, K.

H. Iliev, I. Buchvarov, S. Y. Choi, K. Kim, F. Rotermund, U. Griebner, and V. Petrov, “Steady state mode-locking of a 1.34 μm Nd:YVO4 laser using a single-walled carbon nanotube saturable absorber,” Appl. Phys. B 106(1), 1–4 (2012).
[Crossref]

Lan, R.

Laporteb, P.

R. Moncorgé, B. Chambona, J. Y. Rivoirea, N. Garnierb, E. Descroixb, P. Laporteb, H. Guilletc, S. Royc, J. Mareschald, D. Pelencd, J. Dourye, and P. Farge, “Nd doped crystals for medical laser applications,” Opt. Mater. 8(1-2), 109–119 (1997).
[Crossref]

Li, D.

Li, D. C.

X. T. Chen, S. Z. Zhao, J. Zhao, K. J. Yang, G. Q. Li, D. C. Li, W. C. Qiao, T. Li, H. J. Zhang, T. L. Feng, X. D. Xu, L. H. Zheng, J. Xu, Y. G. Wang, and Y. S. Wang, “Sub-100ns passively Q-switched Nd:LuAG laser with multi-walled carbon nanotube,” Opt. Laser Technol. 64, 7–10 (2014).
[Crossref]

Li, D. Z.

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X. Xu, J. Di, W. Tan, J. Zhang, D. Tang, D. Li, D. H. Zhou, and J. Xu, “High efficient diode-pumped passively mode-locked Nd:LuAG laser,” Laser Phys. Lett. 9(6), 406–409 (2012).
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Tang, D.

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Y. Yang, J. Hou, J. He, J. Xu, H. Yang, F. Lou, Z. Wang, R. Wang, and X. Liu, “1342 nm High-Power Picosecond Pulse Generation by a Passively Mode-Locked Nd:YVO4 Laser,” IEEE Photonics Technol. Lett. 25(15), 1506–1509 (2013).
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Y. Yang, Z. Jia, J. He, J. Xu, B. Zhang, R. Wang, X. Liu, J. Hou, F. Lou, Z. Wang, H. Yang, and X. Tao, “Dual-wavelength synchronously passively mode-locked Nd:LGGG 1.3 μm laser with SESAM,” Laser Phys. Lett. 10(4), 045807 (2013).
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Y. Yang, X. Yang, Z. Jia, J. Xu, J. He, S. Liu, B. Zhang, and H. Yang, “Diode-pumped passively mode-locked Nd:GGG laser at 1331.3 nm,” Laser Phys. Lett. 9(7), 481–484 (2012).
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Yin, S. T.

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Zhao, S.

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[Crossref]

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Figures (5)

Fig. 1
Fig. 1 Experimental setup of the passive mode-locking Nd:LuAG laser.
Fig. 2
Fig. 2 The power performance of Nd:LuAG lasers in CW and CWML regimes.
Fig. 3
Fig. 3 The pulse trains of passive mode-locking Nd:LuAG laser under 200 ns (upper) and 100 ms (lower) time spans.
Fig. 4
Fig. 4 The RF spectrum of the passive mode-locking Nd:LuAG laser (resolution bandwidth (RBW:100 Hz), Inset: 1 GHz wide-span spectrum (RBW: 10 MHz).
Fig. 5
Fig. 5 Autocorrelation trace of the passive mode-locking Nd:LuAG laser. Inset: the corresponding spectrum centered at 1338.07 nm with a FWHM of 0.144 nm.

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