Abstract

We demonstrated an efficient and tunable single-longitudinal-mode Ho:YLF ring laser based on Faraday effect for application to measure atmospheric carbon dioxide (CO2). Single-longitudinal-mode power at 2051.65 nm achieved 528 mW with the slope efficiency of 39.5% and the M2 factor of 1.07, and the tunable range of about 178 GHz was obtained by inserting a Fabry-Perot (F-P) etalon with the thickness of 0.5 mm. In addition, the maximum single-longitudinal-mode power reached 1.5 W with the injected power of 528 mW at 2051.65 nm by master oscillator power amplifier (MOPA) technique. High efficiency and tunable single-longitudinal-mode based on Faraday effect around 2 μm has not been reported yet to the best of our knowledge.

© 2017 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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References

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    [PubMed]
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    [PubMed]
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    [PubMed]
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2017 (2)

T. Y. Dai, Z. G. Fan, J. Wu, Y. L. Ju, B. Q. Yao, Z. G. Zhang, K. Teng, X. G. Xu, and X. M. Duan, “High power single-longitudinal-mode Ho:YLF unidirectional ring laser based on a composite structure of acousto-optic device and wave plate,” Infrared Phys. Technol. 82, 40–43 (2017).

J. Wu, Y. L. Ju, B. Q. Yao, T. Y. Dai, Z. G. Zhang, X. M. Duan, and Y. Z. Wang, “High power single-longitudinal-mode Ho3+:YVO4 unidirectional ring laser,” Chin. Opt. Lett. 15(3), 031402 (2017).

2016 (1)

2015 (2)

2014 (1)

F. Gibert, D. Edouart, C. Cénac, and F. L. Mounier, “2-μm high-power multiple-frequency single-mode Q-switched Ho:YLF laser for DIAL application,” Appl. Phys. B 116(4), 967–976 (2014).

2013 (4)

T. Y. Dai, Y. L. Ju, X. M. Duan, W. Liu, B. Q. Yao, and Y. Z. Wang, “Single-frequency, injection-seeded Q-switched operation of a resonantly pumped Ho:YAlO3 laser at 2,118 nm,” Appl. Phys. B 111(1), 89–92 (2013).

L. Wang, C. Gao, M. Gao, and Y. Li, “Resonantly pumped monolithic nonplanar Ho:YAG ring laser with high-power single-frequency laser output at 2122 nm,” Opt. Express 21(8), 9541–9546 (2013).
[PubMed]

S. Ishii, M. Koyama, P. Baron, H. Iwai, K. Mizutani, T. Itabe, A. Sato, and K. Asai, “Ground-based integrated path coherent differential absorption lidar measurement of CO2: foothill target return,” Atmos. Meas. Tech. 6(5), 1359–1369 (2013).

W. Wang, H. Lu, J. Su, and K. Peng, “Broadband tunable single-frequency Nd:YVO4/LBO green laser with high output power,” Appl. Opt. 52(11), 2279–2285 (2013).
[PubMed]

2012 (1)

2011 (2)

2010 (2)

S. Ishii, K. Mizutani, H. Fukuoka, T. Ishikawa, B. Philippe, H. Iwai, T. Aoki, T. Itabe, A. Sato, and K. Asai, “Coherent 2 microm differential absorption and wind lidar with conductively cooled laser and two-axis scanning device,” Appl. Opt. 49(10), 1809–1817 (2010).
[PubMed]

W. Koen, C. Bollig, H. Strauss, M. Schellhorn, C. Jacobs, and M. J. D. Esser, “Compact fibre-laser-pumped Ho:YLF oscillator-amplifier system,” Appl. Phys. B 99(1–2), 101–106 (2010).

2008 (2)

Aoki, T.

Asai, K.

S. Ishii, M. Koyama, P. Baron, H. Iwai, K. Mizutani, T. Itabe, A. Sato, and K. Asai, “Ground-based integrated path coherent differential absorption lidar measurement of CO2: foothill target return,” Atmos. Meas. Tech. 6(5), 1359–1369 (2013).

S. Ishii, K. Mizutani, H. Fukuoka, T. Ishikawa, B. Philippe, H. Iwai, T. Aoki, T. Itabe, A. Sato, and K. Asai, “Coherent 2 microm differential absorption and wind lidar with conductively cooled laser and two-axis scanning device,” Appl. Opt. 49(10), 1809–1817 (2010).
[PubMed]

Baron, P.

S. Ishii, M. Koyama, P. Baron, H. Iwai, K. Mizutani, T. Itabe, A. Sato, and K. Asai, “Ground-based integrated path coherent differential absorption lidar measurement of CO2: foothill target return,” Atmos. Meas. Tech. 6(5), 1359–1369 (2013).

Bollig, C.

W. Koen, C. Bollig, H. Strauss, M. Schellhorn, C. Jacobs, and M. J. D. Esser, “Compact fibre-laser-pumped Ho:YLF oscillator-amplifier system,” Appl. Phys. B 99(1–2), 101–106 (2010).

Cénac, C.

F. Gibert, D. Edouart, C. Cénac, F. Le Mounier, and A. Dumas, “2-μm Ho emitter-based coherent DIAL for CO2 profiling in the atmosphere,” Opt. Lett. 40(13), 3093–3096 (2015).
[PubMed]

F. Gibert, D. Edouart, C. Cénac, and F. L. Mounier, “2-μm high-power multiple-frequency single-mode Q-switched Ho:YLF laser for DIAL application,” Appl. Phys. B 116(4), 967–976 (2014).

Chen, F.

Coluccelli, N.

Dai, T. Y.

T. Y. Dai, Z. G. Fan, J. Wu, Y. L. Ju, B. Q. Yao, Z. G. Zhang, K. Teng, X. G. Xu, and X. M. Duan, “High power single-longitudinal-mode Ho:YLF unidirectional ring laser based on a composite structure of acousto-optic device and wave plate,” Infrared Phys. Technol. 82, 40–43 (2017).

J. Wu, Y. L. Ju, B. Q. Yao, T. Y. Dai, Z. G. Zhang, X. M. Duan, and Y. Z. Wang, “High power single-longitudinal-mode Ho3+:YVO4 unidirectional ring laser,” Chin. Opt. Lett. 15(3), 031402 (2017).

T. Y. Dai, Y. L. Ju, X. M. Duan, W. Liu, B. Q. Yao, and Y. Z. Wang, “Single-frequency, injection-seeded Q-switched operation of a resonantly pumped Ho:YAlO3 laser at 2,118 nm,” Appl. Phys. B 111(1), 89–92 (2013).

T. Y. Dai, Y. L. Ju, B. Q. Yao, Y. J. Shen, W. Wang, and Y. Z. Wang, “Single-frequency, Q-switched Ho:YAG laser at room temperature injection-seeded by two F-P etalons-restricted Tm, Ho:YAG laser,” Opt. Lett. 37(11), 1850–1852 (2012).
[PubMed]

Davis, K. J.

Duan, X. M.

J. Wu, Y. L. Ju, B. Q. Yao, T. Y. Dai, Z. G. Zhang, X. M. Duan, and Y. Z. Wang, “High power single-longitudinal-mode Ho3+:YVO4 unidirectional ring laser,” Chin. Opt. Lett. 15(3), 031402 (2017).

T. Y. Dai, Z. G. Fan, J. Wu, Y. L. Ju, B. Q. Yao, Z. G. Zhang, K. Teng, X. G. Xu, and X. M. Duan, “High power single-longitudinal-mode Ho:YLF unidirectional ring laser based on a composite structure of acousto-optic device and wave plate,” Infrared Phys. Technol. 82, 40–43 (2017).

T. Y. Dai, Y. L. Ju, X. M. Duan, W. Liu, B. Q. Yao, and Y. Z. Wang, “Single-frequency, injection-seeded Q-switched operation of a resonantly pumped Ho:YAlO3 laser at 2,118 nm,” Appl. Phys. B 111(1), 89–92 (2013).

B. Q. Yao, F. Chen, C. H. Zhang, Q. Wang, C. T. Wu, and X. M. Duan, “Room temperature single-frequency output from a diode-pumped Tm,Ho:YAP laser,” Opt. Lett. 36(9), 1554–1556 (2011).
[PubMed]

B. Q. Yao, X. M. Duan, D. Fang, Y. J. Zhang, L. Ke, Y. L. Ju, Y. Z. Wang, and G. J. Zhao, “7.3 W of single-frequency output power at 2.09 mum from an Ho:YAG monolithic nonplanar ring laser,” Opt. Lett. 33(18), 2161–2163 (2008).
[PubMed]

Dumas, A.

Edouart, D.

F. Gibert, D. Edouart, C. Cénac, F. Le Mounier, and A. Dumas, “2-μm Ho emitter-based coherent DIAL for CO2 profiling in the atmosphere,” Opt. Lett. 40(13), 3093–3096 (2015).
[PubMed]

F. Gibert, D. Edouart, C. Cénac, and F. L. Mounier, “2-μm high-power multiple-frequency single-mode Q-switched Ho:YLF laser for DIAL application,” Appl. Phys. B 116(4), 967–976 (2014).

Esser, M. J. D.

W. Koen, C. Bollig, H. Strauss, M. Schellhorn, C. Jacobs, and M. J. D. Esser, “Compact fibre-laser-pumped Ho:YLF oscillator-amplifier system,” Appl. Phys. B 99(1–2), 101–106 (2010).

Fan, Z. G.

T. Y. Dai, Z. G. Fan, J. Wu, Y. L. Ju, B. Q. Yao, Z. G. Zhang, K. Teng, X. G. Xu, and X. M. Duan, “High power single-longitudinal-mode Ho:YLF unidirectional ring laser based on a composite structure of acousto-optic device and wave plate,” Infrared Phys. Technol. 82, 40–43 (2017).

Fang, D.

Fukuoka, H.

Galzerano, G.

Gao, C.

Gao, M.

Gibert, F.

F. Gibert, D. Edouart, C. Cénac, F. Le Mounier, and A. Dumas, “2-μm Ho emitter-based coherent DIAL for CO2 profiling in the atmosphere,” Opt. Lett. 40(13), 3093–3096 (2015).
[PubMed]

F. Gibert, D. Edouart, C. Cénac, and F. L. Mounier, “2-μm high-power multiple-frequency single-mode Q-switched Ho:YLF laser for DIAL application,” Appl. Phys. B 116(4), 967–976 (2014).

Ishii, S.

S. Ishii, M. Koyama, P. Baron, H. Iwai, K. Mizutani, T. Itabe, A. Sato, and K. Asai, “Ground-based integrated path coherent differential absorption lidar measurement of CO2: foothill target return,” Atmos. Meas. Tech. 6(5), 1359–1369 (2013).

S. Ishii, K. Mizutani, H. Fukuoka, T. Ishikawa, B. Philippe, H. Iwai, T. Aoki, T. Itabe, A. Sato, and K. Asai, “Coherent 2 microm differential absorption and wind lidar with conductively cooled laser and two-axis scanning device,” Appl. Opt. 49(10), 1809–1817 (2010).
[PubMed]

Ishikawa, T.

Ismail, S.

Itabe, T.

S. Ishii, M. Koyama, P. Baron, H. Iwai, K. Mizutani, T. Itabe, A. Sato, and K. Asai, “Ground-based integrated path coherent differential absorption lidar measurement of CO2: foothill target return,” Atmos. Meas. Tech. 6(5), 1359–1369 (2013).

S. Ishii, K. Mizutani, H. Fukuoka, T. Ishikawa, B. Philippe, H. Iwai, T. Aoki, T. Itabe, A. Sato, and K. Asai, “Coherent 2 microm differential absorption and wind lidar with conductively cooled laser and two-axis scanning device,” Appl. Opt. 49(10), 1809–1817 (2010).
[PubMed]

Iwai, H.

S. Ishii, M. Koyama, P. Baron, H. Iwai, K. Mizutani, T. Itabe, A. Sato, and K. Asai, “Ground-based integrated path coherent differential absorption lidar measurement of CO2: foothill target return,” Atmos. Meas. Tech. 6(5), 1359–1369 (2013).

S. Ishii, K. Mizutani, H. Fukuoka, T. Ishikawa, B. Philippe, H. Iwai, T. Aoki, T. Itabe, A. Sato, and K. Asai, “Coherent 2 microm differential absorption and wind lidar with conductively cooled laser and two-axis scanning device,” Appl. Opt. 49(10), 1809–1817 (2010).
[PubMed]

Jacobs, C.

W. Koen, C. Bollig, H. Strauss, M. Schellhorn, C. Jacobs, and M. J. D. Esser, “Compact fibre-laser-pumped Ho:YLF oscillator-amplifier system,” Appl. Phys. B 99(1–2), 101–106 (2010).

Ju, Y. L.

T. Y. Dai, Z. G. Fan, J. Wu, Y. L. Ju, B. Q. Yao, Z. G. Zhang, K. Teng, X. G. Xu, and X. M. Duan, “High power single-longitudinal-mode Ho:YLF unidirectional ring laser based on a composite structure of acousto-optic device and wave plate,” Infrared Phys. Technol. 82, 40–43 (2017).

J. Wu, Y. L. Ju, B. Q. Yao, T. Y. Dai, Z. G. Zhang, X. M. Duan, and Y. Z. Wang, “High power single-longitudinal-mode Ho3+:YVO4 unidirectional ring laser,” Chin. Opt. Lett. 15(3), 031402 (2017).

T. Y. Dai, Y. L. Ju, X. M. Duan, W. Liu, B. Q. Yao, and Y. Z. Wang, “Single-frequency, injection-seeded Q-switched operation of a resonantly pumped Ho:YAlO3 laser at 2,118 nm,” Appl. Phys. B 111(1), 89–92 (2013).

T. Y. Dai, Y. L. Ju, B. Q. Yao, Y. J. Shen, W. Wang, and Y. Z. Wang, “Single-frequency, Q-switched Ho:YAG laser at room temperature injection-seeded by two F-P etalons-restricted Tm, Ho:YAG laser,” Opt. Lett. 37(11), 1850–1852 (2012).
[PubMed]

B. Q. Yao, X. M. Duan, D. Fang, Y. J. Zhang, L. Ke, Y. L. Ju, Y. Z. Wang, and G. J. Zhao, “7.3 W of single-frequency output power at 2.09 mum from an Ho:YAG monolithic nonplanar ring laser,” Opt. Lett. 33(18), 2161–2163 (2008).
[PubMed]

Kavaya, M. J.

Ke, L.

Koen, W.

W. Koen, C. Bollig, H. Strauss, M. Schellhorn, C. Jacobs, and M. J. D. Esser, “Compact fibre-laser-pumped Ho:YLF oscillator-amplifier system,” Appl. Phys. B 99(1–2), 101–106 (2010).

Koyama, M.

S. Ishii, M. Koyama, P. Baron, H. Iwai, K. Mizutani, T. Itabe, A. Sato, and K. Asai, “Ground-based integrated path coherent differential absorption lidar measurement of CO2: foothill target return,” Atmos. Meas. Tech. 6(5), 1359–1369 (2013).

Laporta, P.

Le Mounier, F.

Li, J.

Li, Y.

Liu, W.

T. Y. Dai, Y. L. Ju, X. M. Duan, W. Liu, B. Q. Yao, and Y. Z. Wang, “Single-frequency, injection-seeded Q-switched operation of a resonantly pumped Ho:YAlO3 laser at 2,118 nm,” Appl. Phys. B 111(1), 89–92 (2013).

Lu, H.

Mizutani, K.

S. Ishii, M. Koyama, P. Baron, H. Iwai, K. Mizutani, T. Itabe, A. Sato, and K. Asai, “Ground-based integrated path coherent differential absorption lidar measurement of CO2: foothill target return,” Atmos. Meas. Tech. 6(5), 1359–1369 (2013).

S. Ishii, K. Mizutani, H. Fukuoka, T. Ishikawa, B. Philippe, H. Iwai, T. Aoki, T. Itabe, A. Sato, and K. Asai, “Coherent 2 microm differential absorption and wind lidar with conductively cooled laser and two-axis scanning device,” Appl. Opt. 49(10), 1809–1817 (2010).
[PubMed]

Mounier, F. L.

F. Gibert, D. Edouart, C. Cénac, and F. L. Mounier, “2-μm high-power multiple-frequency single-mode Q-switched Ho:YLF laser for DIAL application,” Appl. Phys. B 116(4), 967–976 (2014).

Parisi, D.

Peng, K.

Petros, M.

Philippe, B.

Refaat, T. F.

Remus, R.

Sato, A.

S. Ishii, M. Koyama, P. Baron, H. Iwai, K. Mizutani, T. Itabe, A. Sato, and K. Asai, “Ground-based integrated path coherent differential absorption lidar measurement of CO2: foothill target return,” Atmos. Meas. Tech. 6(5), 1359–1369 (2013).

S. Ishii, K. Mizutani, H. Fukuoka, T. Ishikawa, B. Philippe, H. Iwai, T. Aoki, T. Itabe, A. Sato, and K. Asai, “Coherent 2 microm differential absorption and wind lidar with conductively cooled laser and two-axis scanning device,” Appl. Opt. 49(10), 1809–1817 (2010).
[PubMed]

Schellhorn, M.

W. Koen, C. Bollig, H. Strauss, M. Schellhorn, C. Jacobs, and M. J. D. Esser, “Compact fibre-laser-pumped Ho:YLF oscillator-amplifier system,” Appl. Phys. B 99(1–2), 101–106 (2010).

Shen, Y. J.

Singh, U. N.

Strauss, H.

W. Koen, C. Bollig, H. Strauss, M. Schellhorn, C. Jacobs, and M. J. D. Esser, “Compact fibre-laser-pumped Ho:YLF oscillator-amplifier system,” Appl. Phys. B 99(1–2), 101–106 (2010).

Su, J.

Teng, K.

T. Y. Dai, Z. G. Fan, J. Wu, Y. L. Ju, B. Q. Yao, Z. G. Zhang, K. Teng, X. G. Xu, and X. M. Duan, “High power single-longitudinal-mode Ho:YLF unidirectional ring laser based on a composite structure of acousto-optic device and wave plate,” Infrared Phys. Technol. 82, 40–43 (2017).

Tonelli, M.

Wang, L.

Wang, Q.

Wang, W.

Wang, Y. Z.

Wu, C. T.

Wu, J.

T. Y. Dai, Z. G. Fan, J. Wu, Y. L. Ju, B. Q. Yao, Z. G. Zhang, K. Teng, X. G. Xu, and X. M. Duan, “High power single-longitudinal-mode Ho:YLF unidirectional ring laser based on a composite structure of acousto-optic device and wave plate,” Infrared Phys. Technol. 82, 40–43 (2017).

J. Wu, Y. L. Ju, B. Q. Yao, T. Y. Dai, Z. G. Zhang, X. M. Duan, and Y. Z. Wang, “High power single-longitudinal-mode Ho3+:YVO4 unidirectional ring laser,” Chin. Opt. Lett. 15(3), 031402 (2017).

Xie, W.

Xu, X. G.

T. Y. Dai, Z. G. Fan, J. Wu, Y. L. Ju, B. Q. Yao, Z. G. Zhang, K. Teng, X. G. Xu, and X. M. Duan, “High power single-longitudinal-mode Ho:YLF unidirectional ring laser based on a composite structure of acousto-optic device and wave plate,” Infrared Phys. Technol. 82, 40–43 (2017).

Yang, S. H.

Yao, B. Q.

Yu, J.

Zhang, C. H.

Zhang, H. Y.

Zhang, Y. J.

Zhang, Z. G.

T. Y. Dai, Z. G. Fan, J. Wu, Y. L. Ju, B. Q. Yao, Z. G. Zhang, K. Teng, X. G. Xu, and X. M. Duan, “High power single-longitudinal-mode Ho:YLF unidirectional ring laser based on a composite structure of acousto-optic device and wave plate,” Infrared Phys. Technol. 82, 40–43 (2017).

J. Wu, Y. L. Ju, B. Q. Yao, T. Y. Dai, Z. G. Zhang, X. M. Duan, and Y. Z. Wang, “High power single-longitudinal-mode Ho3+:YVO4 unidirectional ring laser,” Chin. Opt. Lett. 15(3), 031402 (2017).

Zhao, C. M.

Zhao, G. J.

Appl. Opt. (5)

Appl. Phys. B (3)

W. Koen, C. Bollig, H. Strauss, M. Schellhorn, C. Jacobs, and M. J. D. Esser, “Compact fibre-laser-pumped Ho:YLF oscillator-amplifier system,” Appl. Phys. B 99(1–2), 101–106 (2010).

T. Y. Dai, Y. L. Ju, X. M. Duan, W. Liu, B. Q. Yao, and Y. Z. Wang, “Single-frequency, injection-seeded Q-switched operation of a resonantly pumped Ho:YAlO3 laser at 2,118 nm,” Appl. Phys. B 111(1), 89–92 (2013).

F. Gibert, D. Edouart, C. Cénac, and F. L. Mounier, “2-μm high-power multiple-frequency single-mode Q-switched Ho:YLF laser for DIAL application,” Appl. Phys. B 116(4), 967–976 (2014).

Atmos. Meas. Tech. (1)

S. Ishii, M. Koyama, P. Baron, H. Iwai, K. Mizutani, T. Itabe, A. Sato, and K. Asai, “Ground-based integrated path coherent differential absorption lidar measurement of CO2: foothill target return,” Atmos. Meas. Tech. 6(5), 1359–1369 (2013).

Chin. Opt. Lett. (1)

Infrared Phys. Technol. (1)

T. Y. Dai, Z. G. Fan, J. Wu, Y. L. Ju, B. Q. Yao, Z. G. Zhang, K. Teng, X. G. Xu, and X. M. Duan, “High power single-longitudinal-mode Ho:YLF unidirectional ring laser based on a composite structure of acousto-optic device and wave plate,” Infrared Phys. Technol. 82, 40–43 (2017).

Opt. Express (1)

Opt. Lett. (5)

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Figures (7)

Fig. 1
Fig. 1 The layout of the unidirectional operation of Ho:YLF ring laser.
Fig. 2
Fig. 2 Lasing properties of the Ho:YLF ring laser. (a) output power (b) wavelength and F-P spectra.
Fig. 3
Fig. 3 Out wavelength of the single-longitudinal-mode Ho:YLF ring laser and corresponding F-P spectra.
Fig. 4
Fig. 4 Output power as a function of wavelength.
Fig. 5
Fig. 5 Lasing properties of the single-longitudinal-mode Ho:YLF ring laser at 2051.65 nm. (a) output power and (b) beam quality.
Fig. 6
Fig. 6 Experimental setup of the single-longitudinal-mode Ho:YLF MOPA laser.
Fig. 7
Fig. 7 (a) Amplified power as a function of the pump power; (b) Output power and gain as a function of the injected seed power.

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