Abstract

Characteristics of diode-wing-pumped highly efficient Tm:LuAG lasers running both in continuous wave (CW) and electro-optical Q-switching regimes have been investigated. Using a simple plane-plane cavity, a maximum CW output power of 8.5 W has been achieved with a corresponding slope efficiency of 44.5% by “wing pumping” at 790 nm. With a V-shaped cavity, a diode-wing-pumped MgO:LiNbO3 crystal based electro-optically Q-switched Tm:LuAG laser at 2022.9 nm delivered a maximum pulse energy of 10.8 mJ and a minimum pulse width of 52 ns at a corresponding repetition rate of 100 Hz. To the best of our knowledge, the achieved CW output power and Q-switched pulse energy have both set records for all-solid-state Tm:LuAG lasers, which well reveals an efficient way to generate high-power and high-energy lasers at 2 μm wavelength.

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

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    [Crossref]
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    [Crossref]
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    [Crossref]
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    [Crossref]
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    [Crossref]
  26. C. T. Wu, F. Chen, and Y. L. Ju, “A Diode-Pumped Actively Q-Switched and Injection-Seeded Tm:LuAG Laser at Room Temperature,” J. Russ. Laser Res. 35(4), 347–354 (2014).
    [Crossref]
  27. F. Chen, C. T. Wu, Y. L. Ju, B. Q. Yao, and Y. Z. Wang, “Diode-pumped Q-switched Tm:LuAG ring laser operation at room temperature,” Laser Phys. 22(2), 371–374 (2012).
    [Crossref]

2018 (1)

Q. L. Ma, H. D. Mo, and J. Zhao, “High-energy high-efficiency Nd:YLF laser end-pump by 808 nm diode,” Opt. Commun. 413, 220–223 (2018).
[Crossref]

2017 (1)

2016 (4)

C. Luan, K. Yang, J. Zhao, S. Zhao, L. Song, T. Li, H. Chu, J. Qiao, C. Wang, Z. Li, S. Jiang, B. Man, and L. Zheng, “WS2 as a saturable absorber for Q-switched 2 micron lasers,” Opt. Lett. 41(16), 3783–3786 (2016).
[Crossref] [PubMed]

Y. Zhang, B. Yao, T. Dai, H. Shi, L. Han, Y. Shen, and Y. Ju, “Electro-optically cavity-dumped 3 ns Tm:LuAG laser,” Appl. Opt. 55(11), 2848–2851 (2016).
[Crossref] [PubMed]

L. Jin, P. Liu, H. T. Huang, X. Liu, and D. Y. Shen, “Short pulse diode-pumped Tm:YAG slab laser electro-optically Q-switched by RbTiOPO4 crystal,” Opt. Mater. 60, 350–354 (2016).
[Crossref]

C. Liu, S. Zhao, Y. Li, K. Yang, M. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, X. Chen, L. Zheng, L. Su, and J. Xu, “Stable kilo-hertz electro-optically Q-switched Tm,Ho:YAP laser at room temperature,” Opt. Laser Technol. 81, 189–193 (2016).
[Crossref]

2015 (3)

T. L. Feng, K. J. Yang, S. Z. Zhao, J. Zhao, W. C. Qiao, T. Li, L. H. Zheng, J. Xu, Q. G. Wang, X. D. Xu, L. Bi Su, and Y. G. Wang, “Efficient CW Dual-Wavelength and Passively Q-Switched Tm:LuAG Lasers,” IEEE Photonic. Tech. Lett. 27(1), 7–10 (2015).
[Crossref]

L. Wu, D. Li, S. Zhao, K. Yang, X. Li, R. Wang, and J. Liu, “Passive Q-switching with GaAs or Bi-doped GaAs saturable absorber in Tm:LuAG laser operating at 2μm wavelength,” Opt. Express 23(12), 15469–15476 (2015).
[Crossref] [PubMed]

C. Liu, K. Yang, S. Zhao, Y. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, and X. Chen, “88 ns multi-millijoule LiNbO3 electro-optically Q-switched Tm:LuAG laser,” Opt. Commun. 355, 167–171 (2015).
[Crossref]

2014 (2)

Y. Y. Li, W. D. Chen, H. F. Lin, D. Ke, G. Zhang, S. Q. Zhu, and Z. Q. Chen, “Comparative investigation of diode-wing-pumped Tm:Y3Al5O12 laser between composite and non-composite crystal,” Opt. Laser Technol. 63, 132–136 (2014).
[Crossref]

C. T. Wu, F. Chen, and Y. L. Ju, “A Diode-Pumped Actively Q-Switched and Injection-Seeded Tm:LuAG Laser at Room Temperature,” J. Russ. Laser Res. 35(4), 347–354 (2014).
[Crossref]

2013 (3)

2012 (2)

L. Wang, X. Cai, J. Yang, X. Wu, H. Jiang, and J. Wang, “520 mJ langasite electro-optically Q-switched Cr, Tm, Ho:YAG laser,” Opt. Lett. 37(11), 1986–1988 (2012).
[Crossref] [PubMed]

F. Chen, C. T. Wu, Y. L. Ju, B. Q. Yao, and Y. Z. Wang, “Diode-pumped Q-switched Tm:LuAG ring laser operation at room temperature,” Laser Phys. 22(2), 371–374 (2012).
[Crossref]

2011 (1)

Y. J. Yang, Y. J. Zhang, Q. T. Gu, H. J. Zhang, and X. T. Tao, “Growth and annealing characterization of ZnGeP2 crystal,” J. Cryst. Growth 318(1), 721–724 (2011).
[Crossref]

2008 (3)

Y. F. Li, Y. Z. Wang, and Y. L. Ju, “Comparative Study of LD-Pumped Tm:YAG and Tm:LuAG Lasers,” Laser Phys. 18(6), 722–724 (2008).
[Crossref]

C. T. Wu, Y. L. Ju, Z. G. Wang, Y. F. Li, H. Y. Ma, and Y. Z. Wang, “Lasing characteristics of a CW Tm:LuAG laser with a set of double cavity,” Laser Phys. Lett. 5(7), 510–513 (2008).
[Crossref]

C. T. Wu, Y. L. Ju, Y. F. Li, Z. G. Wang, and Y. Z. Wang, “Diode-pumped Tm:LuAG laser at room temperature,” Chin. Opt. Lett. 6(6), 415–416 (2008).
[Crossref]

2007 (1)

H. Kalaycioglu, A. Sennaroglu, A. Kurt, and G. Ozen, “Spectroscopic analysis of Tm3+:LuAG,” J. Phys. Condens. Matter 19(3), 036208 (2007).
[Crossref]

2005 (1)

M. Roth, M. Tseitlin, and N. Angert, “Oxide Crystals for Electro-Optic Q-Switching of Lasers,” Glass Phys. Chem. 31(1), 86–95 (2005).
[Crossref]

2004 (1)

J. P. Salvestrini, M. Abarkan, and M. D. Fontana, “Comparative study of nonlinear optical crystals for electro-optic Q-switching of laser resonators,” Opt. Mater. 26(4), 449–458 (2004).
[Crossref]

1996 (1)

R. J. Beach, S. B. Sutton, E. C. Honea, J. A. Skidmore, and M. A. Emanuel, “High-power 2-μm diode-pumped Tm:YAG laser,” Proc. SPIE 2698, 168–175 (1996).
[Crossref]

1981 (1)

N. P. Barnes and D. J. Gettemy, “Pulsed Ho:YAG oscillator and amplifier,” IEEE J. Quantum Electron. 17(7), 1303–1308 (1981).
[Crossref]

Abarkan, M.

J. P. Salvestrini, M. Abarkan, and M. D. Fontana, “Comparative study of nonlinear optical crystals for electro-optic Q-switching of laser resonators,” Opt. Mater. 26(4), 449–458 (2004).
[Crossref]

Angert, N.

M. Roth, M. Tseitlin, and N. Angert, “Oxide Crystals for Electro-Optic Q-Switching of Lasers,” Glass Phys. Chem. 31(1), 86–95 (2005).
[Crossref]

Barnes, N. P.

N. P. Barnes and D. J. Gettemy, “Pulsed Ho:YAG oscillator and amplifier,” IEEE J. Quantum Electron. 17(7), 1303–1308 (1981).
[Crossref]

Beach, R. J.

R. J. Beach, S. B. Sutton, E. C. Honea, J. A. Skidmore, and M. A. Emanuel, “High-power 2-μm diode-pumped Tm:YAG laser,” Proc. SPIE 2698, 168–175 (1996).
[Crossref]

Bi Su, L.

T. L. Feng, K. J. Yang, S. Z. Zhao, J. Zhao, W. C. Qiao, T. Li, L. H. Zheng, J. Xu, Q. G. Wang, X. D. Xu, L. Bi Su, and Y. G. Wang, “Efficient CW Dual-Wavelength and Passively Q-Switched Tm:LuAG Lasers,” IEEE Photonic. Tech. Lett. 27(1), 7–10 (2015).
[Crossref]

Cai, X.

Cai, Z. P.

Chen, F.

C. T. Wu, F. Chen, and Y. L. Ju, “A Diode-Pumped Actively Q-Switched and Injection-Seeded Tm:LuAG Laser at Room Temperature,” J. Russ. Laser Res. 35(4), 347–354 (2014).
[Crossref]

F. Chen, C. T. Wu, Y. L. Ju, B. Q. Yao, and Y. Z. Wang, “Diode-pumped Q-switched Tm:LuAG ring laser operation at room temperature,” Laser Phys. 22(2), 371–374 (2012).
[Crossref]

Chen, W. D.

Y. Y. Li, W. D. Chen, H. F. Lin, D. Ke, G. Zhang, S. Q. Zhu, and Z. Q. Chen, “Comparative investigation of diode-wing-pumped Tm:Y3Al5O12 laser between composite and non-composite crystal,” Opt. Laser Technol. 63, 132–136 (2014).
[Crossref]

Chen, X.

C. Liu, S. Zhao, Y. Li, K. Yang, M. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, X. Chen, L. Zheng, L. Su, and J. Xu, “Stable kilo-hertz electro-optically Q-switched Tm,Ho:YAP laser at room temperature,” Opt. Laser Technol. 81, 189–193 (2016).
[Crossref]

C. Liu, K. Yang, S. Zhao, Y. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, and X. Chen, “88 ns multi-millijoule LiNbO3 electro-optically Q-switched Tm:LuAG laser,” Opt. Commun. 355, 167–171 (2015).
[Crossref]

Chen, Z. Q.

Y. Y. Li, W. D. Chen, H. F. Lin, D. Ke, G. Zhang, S. Q. Zhu, and Z. Q. Chen, “Comparative investigation of diode-wing-pumped Tm:Y3Al5O12 laser between composite and non-composite crystal,” Opt. Laser Technol. 63, 132–136 (2014).
[Crossref]

Chu, H.

Dai, T.

Emanuel, M. A.

R. J. Beach, S. B. Sutton, E. C. Honea, J. A. Skidmore, and M. A. Emanuel, “High-power 2-μm diode-pumped Tm:YAG laser,” Proc. SPIE 2698, 168–175 (1996).
[Crossref]

Feng, T.

C. Liu, S. Zhao, Y. Li, K. Yang, M. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, X. Chen, L. Zheng, L. Su, and J. Xu, “Stable kilo-hertz electro-optically Q-switched Tm,Ho:YAP laser at room temperature,” Opt. Laser Technol. 81, 189–193 (2016).
[Crossref]

C. Liu, K. Yang, S. Zhao, Y. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, and X. Chen, “88 ns multi-millijoule LiNbO3 electro-optically Q-switched Tm:LuAG laser,” Opt. Commun. 355, 167–171 (2015).
[Crossref]

Feng, T. L.

T. L. Feng, K. J. Yang, S. Z. Zhao, J. Zhao, W. C. Qiao, T. Li, L. H. Zheng, J. Xu, Q. G. Wang, X. D. Xu, L. Bi Su, and Y. G. Wang, “Efficient CW Dual-Wavelength and Passively Q-Switched Tm:LuAG Lasers,” IEEE Photonic. Tech. Lett. 27(1), 7–10 (2015).
[Crossref]

Fonnum, H.

Fontana, M. D.

J. P. Salvestrini, M. Abarkan, and M. D. Fontana, “Comparative study of nonlinear optical crystals for electro-optic Q-switching of laser resonators,” Opt. Mater. 26(4), 449–458 (2004).
[Crossref]

Gao, C.

Gao, M.

Gettemy, D. J.

N. P. Barnes and D. J. Gettemy, “Pulsed Ho:YAG oscillator and amplifier,” IEEE J. Quantum Electron. 17(7), 1303–1308 (1981).
[Crossref]

Gu, Q. T.

Y. J. Yang, Y. J. Zhang, Q. T. Gu, H. J. Zhang, and X. T. Tao, “Growth and annealing characterization of ZnGeP2 crystal,” J. Cryst. Growth 318(1), 721–724 (2011).
[Crossref]

Guan, X. F.

Haakestad, M. W.

Han, L.

Honea, E. C.

R. J. Beach, S. B. Sutton, E. C. Honea, J. A. Skidmore, and M. A. Emanuel, “High-power 2-μm diode-pumped Tm:YAG laser,” Proc. SPIE 2698, 168–175 (1996).
[Crossref]

Huang, H. T.

L. Jin, P. Liu, H. T. Huang, X. Liu, and D. Y. Shen, “Short pulse diode-pumped Tm:YAG slab laser electro-optically Q-switched by RbTiOPO4 crystal,” Opt. Mater. 60, 350–354 (2016).
[Crossref]

Huang, X. X.

Jiang, H.

Jiang, S.

Jin, L.

L. Jin, P. Liu, H. T. Huang, X. Liu, and D. Y. Shen, “Short pulse diode-pumped Tm:YAG slab laser electro-optically Q-switched by RbTiOPO4 crystal,” Opt. Mater. 60, 350–354 (2016).
[Crossref]

Ju, Y.

Ju, Y. L.

C. T. Wu, F. Chen, and Y. L. Ju, “A Diode-Pumped Actively Q-Switched and Injection-Seeded Tm:LuAG Laser at Room Temperature,” J. Russ. Laser Res. 35(4), 347–354 (2014).
[Crossref]

C. T. Wu, Y. L. Ju, and Y. Z. Wang, “A diode-end-pumped long-pulse-width acoustic-optical Q-switched Tm:LuAG laser at room temperature,” Laser Phys. 23(10), 105810 (2013).
[Crossref]

F. Chen, C. T. Wu, Y. L. Ju, B. Q. Yao, and Y. Z. Wang, “Diode-pumped Q-switched Tm:LuAG ring laser operation at room temperature,” Laser Phys. 22(2), 371–374 (2012).
[Crossref]

C. T. Wu, Y. L. Ju, Y. F. Li, Z. G. Wang, and Y. Z. Wang, “Diode-pumped Tm:LuAG laser at room temperature,” Chin. Opt. Lett. 6(6), 415–416 (2008).
[Crossref]

Y. F. Li, Y. Z. Wang, and Y. L. Ju, “Comparative Study of LD-Pumped Tm:YAG and Tm:LuAG Lasers,” Laser Phys. 18(6), 722–724 (2008).
[Crossref]

C. T. Wu, Y. L. Ju, Z. G. Wang, Y. F. Li, H. Y. Ma, and Y. Z. Wang, “Lasing characteristics of a CW Tm:LuAG laser with a set of double cavity,” Laser Phys. Lett. 5(7), 510–513 (2008).
[Crossref]

Kalaycioglu, H.

H. Kalaycioglu, A. Sennaroglu, A. Kurt, and G. Ozen, “Spectroscopic analysis of Tm3+:LuAG,” J. Phys. Condens. Matter 19(3), 036208 (2007).
[Crossref]

Ke, D.

Y. Y. Li, W. D. Chen, H. F. Lin, D. Ke, G. Zhang, S. Q. Zhu, and Z. Q. Chen, “Comparative investigation of diode-wing-pumped Tm:Y3Al5O12 laser between composite and non-composite crystal,” Opt. Laser Technol. 63, 132–136 (2014).
[Crossref]

Kurt, A.

H. Kalaycioglu, A. Sennaroglu, A. Kurt, and G. Ozen, “Spectroscopic analysis of Tm3+:LuAG,” J. Phys. Condens. Matter 19(3), 036208 (2007).
[Crossref]

Lan, J. L.

Lei, M.

Li, D.

C. Liu, S. Zhao, Y. Li, K. Yang, M. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, X. Chen, L. Zheng, L. Su, and J. Xu, “Stable kilo-hertz electro-optically Q-switched Tm,Ho:YAP laser at room temperature,” Opt. Laser Technol. 81, 189–193 (2016).
[Crossref]

C. Liu, K. Yang, S. Zhao, Y. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, and X. Chen, “88 ns multi-millijoule LiNbO3 electro-optically Q-switched Tm:LuAG laser,” Opt. Commun. 355, 167–171 (2015).
[Crossref]

L. Wu, D. Li, S. Zhao, K. Yang, X. Li, R. Wang, and J. Liu, “Passive Q-switching with GaAs or Bi-doped GaAs saturable absorber in Tm:LuAG laser operating at 2μm wavelength,” Opt. Express 23(12), 15469–15476 (2015).
[Crossref] [PubMed]

Li, G.

C. Liu, S. Zhao, Y. Li, K. Yang, M. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, X. Chen, L. Zheng, L. Su, and J. Xu, “Stable kilo-hertz electro-optically Q-switched Tm,Ho:YAP laser at room temperature,” Opt. Laser Technol. 81, 189–193 (2016).
[Crossref]

C. Liu, K. Yang, S. Zhao, Y. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, and X. Chen, “88 ns multi-millijoule LiNbO3 electro-optically Q-switched Tm:LuAG laser,” Opt. Commun. 355, 167–171 (2015).
[Crossref]

Li, M.

C. Liu, S. Zhao, Y. Li, K. Yang, M. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, X. Chen, L. Zheng, L. Su, and J. Xu, “Stable kilo-hertz electro-optically Q-switched Tm,Ho:YAP laser at room temperature,” Opt. Laser Technol. 81, 189–193 (2016).
[Crossref]

Li, T.

C. Liu, S. Zhao, Y. Li, K. Yang, M. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, X. Chen, L. Zheng, L. Su, and J. Xu, “Stable kilo-hertz electro-optically Q-switched Tm,Ho:YAP laser at room temperature,” Opt. Laser Technol. 81, 189–193 (2016).
[Crossref]

C. Luan, K. Yang, J. Zhao, S. Zhao, L. Song, T. Li, H. Chu, J. Qiao, C. Wang, Z. Li, S. Jiang, B. Man, and L. Zheng, “WS2 as a saturable absorber for Q-switched 2 micron lasers,” Opt. Lett. 41(16), 3783–3786 (2016).
[Crossref] [PubMed]

T. L. Feng, K. J. Yang, S. Z. Zhao, J. Zhao, W. C. Qiao, T. Li, L. H. Zheng, J. Xu, Q. G. Wang, X. D. Xu, L. Bi Su, and Y. G. Wang, “Efficient CW Dual-Wavelength and Passively Q-Switched Tm:LuAG Lasers,” IEEE Photonic. Tech. Lett. 27(1), 7–10 (2015).
[Crossref]

C. Liu, K. Yang, S. Zhao, Y. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, and X. Chen, “88 ns multi-millijoule LiNbO3 electro-optically Q-switched Tm:LuAG laser,” Opt. Commun. 355, 167–171 (2015).
[Crossref]

Li, X.

Li, Y.

C. Liu, S. Zhao, Y. Li, K. Yang, M. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, X. Chen, L. Zheng, L. Su, and J. Xu, “Stable kilo-hertz electro-optically Q-switched Tm,Ho:YAP laser at room temperature,” Opt. Laser Technol. 81, 189–193 (2016).
[Crossref]

C. Liu, K. Yang, S. Zhao, Y. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, and X. Chen, “88 ns multi-millijoule LiNbO3 electro-optically Q-switched Tm:LuAG laser,” Opt. Commun. 355, 167–171 (2015).
[Crossref]

Li, Y. F.

Y. F. Li, Y. Z. Wang, and Y. L. Ju, “Comparative Study of LD-Pumped Tm:YAG and Tm:LuAG Lasers,” Laser Phys. 18(6), 722–724 (2008).
[Crossref]

C. T. Wu, Y. L. Ju, Z. G. Wang, Y. F. Li, H. Y. Ma, and Y. Z. Wang, “Lasing characteristics of a CW Tm:LuAG laser with a set of double cavity,” Laser Phys. Lett. 5(7), 510–513 (2008).
[Crossref]

C. T. Wu, Y. L. Ju, Y. F. Li, Z. G. Wang, and Y. Z. Wang, “Diode-pumped Tm:LuAG laser at room temperature,” Chin. Opt. Lett. 6(6), 415–416 (2008).
[Crossref]

Li, Y. Y.

Y. Y. Li, W. D. Chen, H. F. Lin, D. Ke, G. Zhang, S. Q. Zhu, and Z. Q. Chen, “Comparative investigation of diode-wing-pumped Tm:Y3Al5O12 laser between composite and non-composite crystal,” Opt. Laser Technol. 63, 132–136 (2014).
[Crossref]

Li, Z.

Lin, H. F.

Y. Y. Li, W. D. Chen, H. F. Lin, D. Ke, G. Zhang, S. Q. Zhu, and Z. Q. Chen, “Comparative investigation of diode-wing-pumped Tm:Y3Al5O12 laser between composite and non-composite crystal,” Opt. Laser Technol. 63, 132–136 (2014).
[Crossref]

Lippert, E.

Liu, C.

C. Liu, S. Zhao, Y. Li, K. Yang, M. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, X. Chen, L. Zheng, L. Su, and J. Xu, “Stable kilo-hertz electro-optically Q-switched Tm,Ho:YAP laser at room temperature,” Opt. Laser Technol. 81, 189–193 (2016).
[Crossref]

C. Liu, K. Yang, S. Zhao, Y. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, and X. Chen, “88 ns multi-millijoule LiNbO3 electro-optically Q-switched Tm:LuAG laser,” Opt. Commun. 355, 167–171 (2015).
[Crossref]

Liu, J.

Liu, L.

Liu, P.

Z. Y. Zhou, X. X. Huang, X. F. Guan, J. L. Lan, B. Xu, H. Y. Xu, Z. P. Cai, P. Liu, D. Y. Yan, X. D. Xu, J. Zhang, M. Lei, and J. Xu, “Continuous-wave and passively Q-switched Tm3+-doped LuAG ceramic lasers,” Opt. Mater. Express 7(9), 3441–3447 (2017).
[Crossref]

L. Jin, P. Liu, H. T. Huang, X. Liu, and D. Y. Shen, “Short pulse diode-pumped Tm:YAG slab laser electro-optically Q-switched by RbTiOPO4 crystal,” Opt. Mater. 60, 350–354 (2016).
[Crossref]

Liu, X.

L. Jin, P. Liu, H. T. Huang, X. Liu, and D. Y. Shen, “Short pulse diode-pumped Tm:YAG slab laser electro-optically Q-switched by RbTiOPO4 crystal,” Opt. Mater. 60, 350–354 (2016).
[Crossref]

Luan, C.

Ma, H. Y.

C. T. Wu, Y. L. Ju, Z. G. Wang, Y. F. Li, H. Y. Ma, and Y. Z. Wang, “Lasing characteristics of a CW Tm:LuAG laser with a set of double cavity,” Laser Phys. Lett. 5(7), 510–513 (2008).
[Crossref]

Ma, Q. L.

Q. L. Ma, H. D. Mo, and J. Zhao, “High-energy high-efficiency Nd:YLF laser end-pump by 808 nm diode,” Opt. Commun. 413, 220–223 (2018).
[Crossref]

Man, B.

Mo, H. D.

Q. L. Ma, H. D. Mo, and J. Zhao, “High-energy high-efficiency Nd:YLF laser end-pump by 808 nm diode,” Opt. Commun. 413, 220–223 (2018).
[Crossref]

Ozen, G.

H. Kalaycioglu, A. Sennaroglu, A. Kurt, and G. Ozen, “Spectroscopic analysis of Tm3+:LuAG,” J. Phys. Condens. Matter 19(3), 036208 (2007).
[Crossref]

Qiao, J.

Qiao, W.

C. Liu, S. Zhao, Y. Li, K. Yang, M. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, X. Chen, L. Zheng, L. Su, and J. Xu, “Stable kilo-hertz electro-optically Q-switched Tm,Ho:YAP laser at room temperature,” Opt. Laser Technol. 81, 189–193 (2016).
[Crossref]

C. Liu, K. Yang, S. Zhao, Y. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, and X. Chen, “88 ns multi-millijoule LiNbO3 electro-optically Q-switched Tm:LuAG laser,” Opt. Commun. 355, 167–171 (2015).
[Crossref]

Qiao, W. C.

T. L. Feng, K. J. Yang, S. Z. Zhao, J. Zhao, W. C. Qiao, T. Li, L. H. Zheng, J. Xu, Q. G. Wang, X. D. Xu, L. Bi Su, and Y. G. Wang, “Efficient CW Dual-Wavelength and Passively Q-Switched Tm:LuAG Lasers,” IEEE Photonic. Tech. Lett. 27(1), 7–10 (2015).
[Crossref]

Roth, M.

M. Roth, M. Tseitlin, and N. Angert, “Oxide Crystals for Electro-Optic Q-Switching of Lasers,” Glass Phys. Chem. 31(1), 86–95 (2005).
[Crossref]

Salvestrini, J. P.

J. P. Salvestrini, M. Abarkan, and M. D. Fontana, “Comparative study of nonlinear optical crystals for electro-optic Q-switching of laser resonators,” Opt. Mater. 26(4), 449–458 (2004).
[Crossref]

Sennaroglu, A.

H. Kalaycioglu, A. Sennaroglu, A. Kurt, and G. Ozen, “Spectroscopic analysis of Tm3+:LuAG,” J. Phys. Condens. Matter 19(3), 036208 (2007).
[Crossref]

Shen, D. Y.

L. Jin, P. Liu, H. T. Huang, X. Liu, and D. Y. Shen, “Short pulse diode-pumped Tm:YAG slab laser electro-optically Q-switched by RbTiOPO4 crystal,” Opt. Mater. 60, 350–354 (2016).
[Crossref]

Shen, Y.

Shi, H.

Skidmore, J. A.

R. J. Beach, S. B. Sutton, E. C. Honea, J. A. Skidmore, and M. A. Emanuel, “High-power 2-μm diode-pumped Tm:YAG laser,” Proc. SPIE 2698, 168–175 (1996).
[Crossref]

Song, L.

Su, L.

C. Liu, S. Zhao, Y. Li, K. Yang, M. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, X. Chen, L. Zheng, L. Su, and J. Xu, “Stable kilo-hertz electro-optically Q-switched Tm,Ho:YAP laser at room temperature,” Opt. Laser Technol. 81, 189–193 (2016).
[Crossref]

Sutton, S. B.

R. J. Beach, S. B. Sutton, E. C. Honea, J. A. Skidmore, and M. A. Emanuel, “High-power 2-μm diode-pumped Tm:YAG laser,” Proc. SPIE 2698, 168–175 (1996).
[Crossref]

Tao, X. T.

Y. J. Yang, Y. J. Zhang, Q. T. Gu, H. J. Zhang, and X. T. Tao, “Growth and annealing characterization of ZnGeP2 crystal,” J. Cryst. Growth 318(1), 721–724 (2011).
[Crossref]

Tseitlin, M.

M. Roth, M. Tseitlin, and N. Angert, “Oxide Crystals for Electro-Optic Q-Switching of Lasers,” Glass Phys. Chem. 31(1), 86–95 (2005).
[Crossref]

Wang, C.

Wang, J.

Wang, L.

Wang, Q. G.

T. L. Feng, K. J. Yang, S. Z. Zhao, J. Zhao, W. C. Qiao, T. Li, L. H. Zheng, J. Xu, Q. G. Wang, X. D. Xu, L. Bi Su, and Y. G. Wang, “Efficient CW Dual-Wavelength and Passively Q-Switched Tm:LuAG Lasers,” IEEE Photonic. Tech. Lett. 27(1), 7–10 (2015).
[Crossref]

Wang, R.

Wang, Y. G.

T. L. Feng, K. J. Yang, S. Z. Zhao, J. Zhao, W. C. Qiao, T. Li, L. H. Zheng, J. Xu, Q. G. Wang, X. D. Xu, L. Bi Su, and Y. G. Wang, “Efficient CW Dual-Wavelength and Passively Q-Switched Tm:LuAG Lasers,” IEEE Photonic. Tech. Lett. 27(1), 7–10 (2015).
[Crossref]

Wang, Y. Z.

C. T. Wu, Y. L. Ju, and Y. Z. Wang, “A diode-end-pumped long-pulse-width acoustic-optical Q-switched Tm:LuAG laser at room temperature,” Laser Phys. 23(10), 105810 (2013).
[Crossref]

F. Chen, C. T. Wu, Y. L. Ju, B. Q. Yao, and Y. Z. Wang, “Diode-pumped Q-switched Tm:LuAG ring laser operation at room temperature,” Laser Phys. 22(2), 371–374 (2012).
[Crossref]

C. T. Wu, Y. L. Ju, Y. F. Li, Z. G. Wang, and Y. Z. Wang, “Diode-pumped Tm:LuAG laser at room temperature,” Chin. Opt. Lett. 6(6), 415–416 (2008).
[Crossref]

Y. F. Li, Y. Z. Wang, and Y. L. Ju, “Comparative Study of LD-Pumped Tm:YAG and Tm:LuAG Lasers,” Laser Phys. 18(6), 722–724 (2008).
[Crossref]

C. T. Wu, Y. L. Ju, Z. G. Wang, Y. F. Li, H. Y. Ma, and Y. Z. Wang, “Lasing characteristics of a CW Tm:LuAG laser with a set of double cavity,” Laser Phys. Lett. 5(7), 510–513 (2008).
[Crossref]

Wang, Z. G.

C. T. Wu, Y. L. Ju, Z. G. Wang, Y. F. Li, H. Y. Ma, and Y. Z. Wang, “Lasing characteristics of a CW Tm:LuAG laser with a set of double cavity,” Laser Phys. Lett. 5(7), 510–513 (2008).
[Crossref]

C. T. Wu, Y. L. Ju, Y. F. Li, Z. G. Wang, and Y. Z. Wang, “Diode-pumped Tm:LuAG laser at room temperature,” Chin. Opt. Lett. 6(6), 415–416 (2008).
[Crossref]

Wu, C. T.

C. T. Wu, F. Chen, and Y. L. Ju, “A Diode-Pumped Actively Q-Switched and Injection-Seeded Tm:LuAG Laser at Room Temperature,” J. Russ. Laser Res. 35(4), 347–354 (2014).
[Crossref]

C. T. Wu, Y. L. Ju, and Y. Z. Wang, “A diode-end-pumped long-pulse-width acoustic-optical Q-switched Tm:LuAG laser at room temperature,” Laser Phys. 23(10), 105810 (2013).
[Crossref]

F. Chen, C. T. Wu, Y. L. Ju, B. Q. Yao, and Y. Z. Wang, “Diode-pumped Q-switched Tm:LuAG ring laser operation at room temperature,” Laser Phys. 22(2), 371–374 (2012).
[Crossref]

C. T. Wu, Y. L. Ju, Y. F. Li, Z. G. Wang, and Y. Z. Wang, “Diode-pumped Tm:LuAG laser at room temperature,” Chin. Opt. Lett. 6(6), 415–416 (2008).
[Crossref]

C. T. Wu, Y. L. Ju, Z. G. Wang, Y. F. Li, H. Y. Ma, and Y. Z. Wang, “Lasing characteristics of a CW Tm:LuAG laser with a set of double cavity,” Laser Phys. Lett. 5(7), 510–513 (2008).
[Crossref]

Wu, L.

Wu, X.

Xu, B.

Xu, H. Y.

Xu, J.

Z. Y. Zhou, X. X. Huang, X. F. Guan, J. L. Lan, B. Xu, H. Y. Xu, Z. P. Cai, P. Liu, D. Y. Yan, X. D. Xu, J. Zhang, M. Lei, and J. Xu, “Continuous-wave and passively Q-switched Tm3+-doped LuAG ceramic lasers,” Opt. Mater. Express 7(9), 3441–3447 (2017).
[Crossref]

C. Liu, S. Zhao, Y. Li, K. Yang, M. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, X. Chen, L. Zheng, L. Su, and J. Xu, “Stable kilo-hertz electro-optically Q-switched Tm,Ho:YAP laser at room temperature,” Opt. Laser Technol. 81, 189–193 (2016).
[Crossref]

T. L. Feng, K. J. Yang, S. Z. Zhao, J. Zhao, W. C. Qiao, T. Li, L. H. Zheng, J. Xu, Q. G. Wang, X. D. Xu, L. Bi Su, and Y. G. Wang, “Efficient CW Dual-Wavelength and Passively Q-Switched Tm:LuAG Lasers,” IEEE Photonic. Tech. Lett. 27(1), 7–10 (2015).
[Crossref]

Xu, X. D.

Z. Y. Zhou, X. X. Huang, X. F. Guan, J. L. Lan, B. Xu, H. Y. Xu, Z. P. Cai, P. Liu, D. Y. Yan, X. D. Xu, J. Zhang, M. Lei, and J. Xu, “Continuous-wave and passively Q-switched Tm3+-doped LuAG ceramic lasers,” Opt. Mater. Express 7(9), 3441–3447 (2017).
[Crossref]

T. L. Feng, K. J. Yang, S. Z. Zhao, J. Zhao, W. C. Qiao, T. Li, L. H. Zheng, J. Xu, Q. G. Wang, X. D. Xu, L. Bi Su, and Y. G. Wang, “Efficient CW Dual-Wavelength and Passively Q-Switched Tm:LuAG Lasers,” IEEE Photonic. Tech. Lett. 27(1), 7–10 (2015).
[Crossref]

Yan, D. Y.

Yang, J.

Yang, K.

C. Luan, K. Yang, J. Zhao, S. Zhao, L. Song, T. Li, H. Chu, J. Qiao, C. Wang, Z. Li, S. Jiang, B. Man, and L. Zheng, “WS2 as a saturable absorber for Q-switched 2 micron lasers,” Opt. Lett. 41(16), 3783–3786 (2016).
[Crossref] [PubMed]

C. Liu, S. Zhao, Y. Li, K. Yang, M. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, X. Chen, L. Zheng, L. Su, and J. Xu, “Stable kilo-hertz electro-optically Q-switched Tm,Ho:YAP laser at room temperature,” Opt. Laser Technol. 81, 189–193 (2016).
[Crossref]

C. Liu, K. Yang, S. Zhao, Y. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, and X. Chen, “88 ns multi-millijoule LiNbO3 electro-optically Q-switched Tm:LuAG laser,” Opt. Commun. 355, 167–171 (2015).
[Crossref]

L. Wu, D. Li, S. Zhao, K. Yang, X. Li, R. Wang, and J. Liu, “Passive Q-switching with GaAs or Bi-doped GaAs saturable absorber in Tm:LuAG laser operating at 2μm wavelength,” Opt. Express 23(12), 15469–15476 (2015).
[Crossref] [PubMed]

Yang, K. J.

T. L. Feng, K. J. Yang, S. Z. Zhao, J. Zhao, W. C. Qiao, T. Li, L. H. Zheng, J. Xu, Q. G. Wang, X. D. Xu, L. Bi Su, and Y. G. Wang, “Efficient CW Dual-Wavelength and Passively Q-Switched Tm:LuAG Lasers,” IEEE Photonic. Tech. Lett. 27(1), 7–10 (2015).
[Crossref]

Yang, Y. J.

Y. J. Yang, Y. J. Zhang, Q. T. Gu, H. J. Zhang, and X. T. Tao, “Growth and annealing characterization of ZnGeP2 crystal,” J. Cryst. Growth 318(1), 721–724 (2011).
[Crossref]

Yao, B.

Yao, B. Q.

F. Chen, C. T. Wu, Y. L. Ju, B. Q. Yao, and Y. Z. Wang, “Diode-pumped Q-switched Tm:LuAG ring laser operation at room temperature,” Laser Phys. 22(2), 371–374 (2012).
[Crossref]

Yue, F.

Zhang, G.

Y. Y. Li, W. D. Chen, H. F. Lin, D. Ke, G. Zhang, S. Q. Zhu, and Z. Q. Chen, “Comparative investigation of diode-wing-pumped Tm:Y3Al5O12 laser between composite and non-composite crystal,” Opt. Laser Technol. 63, 132–136 (2014).
[Crossref]

Zhang, H. J.

Y. J. Yang, Y. J. Zhang, Q. T. Gu, H. J. Zhang, and X. T. Tao, “Growth and annealing characterization of ZnGeP2 crystal,” J. Cryst. Growth 318(1), 721–724 (2011).
[Crossref]

Zhang, J.

Zhang, Y.

Zhang, Y. J.

Y. J. Yang, Y. J. Zhang, Q. T. Gu, H. J. Zhang, and X. T. Tao, “Growth and annealing characterization of ZnGeP2 crystal,” J. Cryst. Growth 318(1), 721–724 (2011).
[Crossref]

Zhao, J.

Q. L. Ma, H. D. Mo, and J. Zhao, “High-energy high-efficiency Nd:YLF laser end-pump by 808 nm diode,” Opt. Commun. 413, 220–223 (2018).
[Crossref]

C. Luan, K. Yang, J. Zhao, S. Zhao, L. Song, T. Li, H. Chu, J. Qiao, C. Wang, Z. Li, S. Jiang, B. Man, and L. Zheng, “WS2 as a saturable absorber for Q-switched 2 micron lasers,” Opt. Lett. 41(16), 3783–3786 (2016).
[Crossref] [PubMed]

T. L. Feng, K. J. Yang, S. Z. Zhao, J. Zhao, W. C. Qiao, T. Li, L. H. Zheng, J. Xu, Q. G. Wang, X. D. Xu, L. Bi Su, and Y. G. Wang, “Efficient CW Dual-Wavelength and Passively Q-Switched Tm:LuAG Lasers,” IEEE Photonic. Tech. Lett. 27(1), 7–10 (2015).
[Crossref]

Zhao, S.

C. Liu, S. Zhao, Y. Li, K. Yang, M. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, X. Chen, L. Zheng, L. Su, and J. Xu, “Stable kilo-hertz electro-optically Q-switched Tm,Ho:YAP laser at room temperature,” Opt. Laser Technol. 81, 189–193 (2016).
[Crossref]

C. Luan, K. Yang, J. Zhao, S. Zhao, L. Song, T. Li, H. Chu, J. Qiao, C. Wang, Z. Li, S. Jiang, B. Man, and L. Zheng, “WS2 as a saturable absorber for Q-switched 2 micron lasers,” Opt. Lett. 41(16), 3783–3786 (2016).
[Crossref] [PubMed]

L. Wu, D. Li, S. Zhao, K. Yang, X. Li, R. Wang, and J. Liu, “Passive Q-switching with GaAs or Bi-doped GaAs saturable absorber in Tm:LuAG laser operating at 2μm wavelength,” Opt. Express 23(12), 15469–15476 (2015).
[Crossref] [PubMed]

C. Liu, K. Yang, S. Zhao, Y. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, and X. Chen, “88 ns multi-millijoule LiNbO3 electro-optically Q-switched Tm:LuAG laser,” Opt. Commun. 355, 167–171 (2015).
[Crossref]

Zhao, S. Z.

T. L. Feng, K. J. Yang, S. Z. Zhao, J. Zhao, W. C. Qiao, T. Li, L. H. Zheng, J. Xu, Q. G. Wang, X. D. Xu, L. Bi Su, and Y. G. Wang, “Efficient CW Dual-Wavelength and Passively Q-Switched Tm:LuAG Lasers,” IEEE Photonic. Tech. Lett. 27(1), 7–10 (2015).
[Crossref]

Zheng, L.

C. Liu, S. Zhao, Y. Li, K. Yang, M. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, X. Chen, L. Zheng, L. Su, and J. Xu, “Stable kilo-hertz electro-optically Q-switched Tm,Ho:YAP laser at room temperature,” Opt. Laser Technol. 81, 189–193 (2016).
[Crossref]

C. Luan, K. Yang, J. Zhao, S. Zhao, L. Song, T. Li, H. Chu, J. Qiao, C. Wang, Z. Li, S. Jiang, B. Man, and L. Zheng, “WS2 as a saturable absorber for Q-switched 2 micron lasers,” Opt. Lett. 41(16), 3783–3786 (2016).
[Crossref] [PubMed]

Zheng, L. H.

T. L. Feng, K. J. Yang, S. Z. Zhao, J. Zhao, W. C. Qiao, T. Li, L. H. Zheng, J. Xu, Q. G. Wang, X. D. Xu, L. Bi Su, and Y. G. Wang, “Efficient CW Dual-Wavelength and Passively Q-Switched Tm:LuAG Lasers,” IEEE Photonic. Tech. Lett. 27(1), 7–10 (2015).
[Crossref]

Zhou, Z. Y.

Zhu, S. Q.

Y. Y. Li, W. D. Chen, H. F. Lin, D. Ke, G. Zhang, S. Q. Zhu, and Z. Q. Chen, “Comparative investigation of diode-wing-pumped Tm:Y3Al5O12 laser between composite and non-composite crystal,” Opt. Laser Technol. 63, 132–136 (2014).
[Crossref]

Appl. Opt. (2)

Chin. Opt. Lett. (1)

Glass Phys. Chem. (1)

M. Roth, M. Tseitlin, and N. Angert, “Oxide Crystals for Electro-Optic Q-Switching of Lasers,” Glass Phys. Chem. 31(1), 86–95 (2005).
[Crossref]

IEEE J. Quantum Electron. (1)

N. P. Barnes and D. J. Gettemy, “Pulsed Ho:YAG oscillator and amplifier,” IEEE J. Quantum Electron. 17(7), 1303–1308 (1981).
[Crossref]

IEEE Photonic. Tech. Lett. (1)

T. L. Feng, K. J. Yang, S. Z. Zhao, J. Zhao, W. C. Qiao, T. Li, L. H. Zheng, J. Xu, Q. G. Wang, X. D. Xu, L. Bi Su, and Y. G. Wang, “Efficient CW Dual-Wavelength and Passively Q-Switched Tm:LuAG Lasers,” IEEE Photonic. Tech. Lett. 27(1), 7–10 (2015).
[Crossref]

J. Cryst. Growth (1)

Y. J. Yang, Y. J. Zhang, Q. T. Gu, H. J. Zhang, and X. T. Tao, “Growth and annealing characterization of ZnGeP2 crystal,” J. Cryst. Growth 318(1), 721–724 (2011).
[Crossref]

J. Phys. Condens. Matter (1)

H. Kalaycioglu, A. Sennaroglu, A. Kurt, and G. Ozen, “Spectroscopic analysis of Tm3+:LuAG,” J. Phys. Condens. Matter 19(3), 036208 (2007).
[Crossref]

J. Russ. Laser Res. (1)

C. T. Wu, F. Chen, and Y. L. Ju, “A Diode-Pumped Actively Q-Switched and Injection-Seeded Tm:LuAG Laser at Room Temperature,” J. Russ. Laser Res. 35(4), 347–354 (2014).
[Crossref]

Laser Phys. (3)

F. Chen, C. T. Wu, Y. L. Ju, B. Q. Yao, and Y. Z. Wang, “Diode-pumped Q-switched Tm:LuAG ring laser operation at room temperature,” Laser Phys. 22(2), 371–374 (2012).
[Crossref]

Y. F. Li, Y. Z. Wang, and Y. L. Ju, “Comparative Study of LD-Pumped Tm:YAG and Tm:LuAG Lasers,” Laser Phys. 18(6), 722–724 (2008).
[Crossref]

C. T. Wu, Y. L. Ju, and Y. Z. Wang, “A diode-end-pumped long-pulse-width acoustic-optical Q-switched Tm:LuAG laser at room temperature,” Laser Phys. 23(10), 105810 (2013).
[Crossref]

Laser Phys. Lett. (1)

C. T. Wu, Y. L. Ju, Z. G. Wang, Y. F. Li, H. Y. Ma, and Y. Z. Wang, “Lasing characteristics of a CW Tm:LuAG laser with a set of double cavity,” Laser Phys. Lett. 5(7), 510–513 (2008).
[Crossref]

Opt. Commun. (2)

Q. L. Ma, H. D. Mo, and J. Zhao, “High-energy high-efficiency Nd:YLF laser end-pump by 808 nm diode,” Opt. Commun. 413, 220–223 (2018).
[Crossref]

C. Liu, K. Yang, S. Zhao, Y. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, and X. Chen, “88 ns multi-millijoule LiNbO3 electro-optically Q-switched Tm:LuAG laser,” Opt. Commun. 355, 167–171 (2015).
[Crossref]

Opt. Express (1)

Opt. Laser Technol. (2)

Y. Y. Li, W. D. Chen, H. F. Lin, D. Ke, G. Zhang, S. Q. Zhu, and Z. Q. Chen, “Comparative investigation of diode-wing-pumped Tm:Y3Al5O12 laser between composite and non-composite crystal,” Opt. Laser Technol. 63, 132–136 (2014).
[Crossref]

C. Liu, S. Zhao, Y. Li, K. Yang, M. Li, G. Li, D. Li, T. Li, W. Qiao, T. Feng, X. Chen, L. Zheng, L. Su, and J. Xu, “Stable kilo-hertz electro-optically Q-switched Tm,Ho:YAP laser at room temperature,” Opt. Laser Technol. 81, 189–193 (2016).
[Crossref]

Opt. Lett. (3)

Opt. Mater. (2)

L. Jin, P. Liu, H. T. Huang, X. Liu, and D. Y. Shen, “Short pulse diode-pumped Tm:YAG slab laser electro-optically Q-switched by RbTiOPO4 crystal,” Opt. Mater. 60, 350–354 (2016).
[Crossref]

J. P. Salvestrini, M. Abarkan, and M. D. Fontana, “Comparative study of nonlinear optical crystals for electro-optic Q-switching of laser resonators,” Opt. Mater. 26(4), 449–458 (2004).
[Crossref]

Opt. Mater. Express (1)

Proc. SPIE (1)

R. J. Beach, S. B. Sutton, E. C. Honea, J. A. Skidmore, and M. A. Emanuel, “High-power 2-μm diode-pumped Tm:YAG laser,” Proc. SPIE 2698, 168–175 (1996).
[Crossref]

Other (2)

W. Koechner, Solid-Sate Laser Engineering (Springer, 2005), Chap. 8.

L. A. Pomeranz, P. A. Ketteridge, P. A. Budni, K. M. Ezzo, D. M. Rines, and E. P. Chicklis, “Tm:YAlO3 Laser Pumped ZGP Mid-IR Source,” in Advanced Solid-State Photonics, J. Zayhowski, ed., Vol. 83 of OSA Trends in Optics and Photonics (Optical Society of America, 2003), paper 142.

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Figures (7)

Fig. 1
Fig. 1 Schematic setup of diode-pumped CW Tm:LuAG laser.
Figure 2
Figure 2 (a) Absorbance and absorbed power versus incident pump power; (b) Output power versus absorbed pump power.
Fig. 3
Fig. 3 Schematics of Q-switched Tm:LuAG laser.
Fig. 4
Fig. 4 (a) Average output power and peak power; (b) Single pulse energy and pulse width versus repetition rates.
Fig. 5
Fig. 5 (a) Average output power in CW and EO Q-switching regimes; (b) Pulse width and pulse energy versus absorbed pump power at 100 Hz.
Fig. 6
Fig. 6 The temporal pulse train and single pulse shape with a duration of 52 ns.
Fig. 7
Fig. 7 Output spectra of CW and EO Q-switched Tm:LuAG lasers.

Tables (2)

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Table 1 Summaries of diode-pumped CW Tm:LuAG laser performance.

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Table 2 Summaries of diode-pumped actively Q-switched Tm:LuAG lasers.

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