Picosecond Mid-Infrared 3.8 ㎛ MgO:PPLN Optical Parametric Oscillator Laser with High Peak Power |
Chen, Bing-Yan
(Jilin Key Laboratory of Solid Laser Technology and Application, College of Science, Changchun University of Science and Technology)
Wang, Yu-Heng (Jilin Key Laboratory of Solid Laser Technology and Application, College of Science, Changchun University of Science and Technology) Yu, Yong-Ji (Jilin Key Laboratory of Solid Laser Technology and Application, College of Science, Changchun University of Science and Technology) Jin, Guang-Yong (Jilin Key Laboratory of Solid Laser Technology and Application, College of Science, Changchun University of Science and Technology) |
1 | A. Soibel, M. Wright, W. Farr, S. Keo, C. Hill, R. Q. Yang, and H. C. Liu, "Mid-infrared interband cascade lasers for free-space laser communication," Proc. SPIE 7199, 71990E (2009). DOI |
2 | Y. Yu, X. Chen, L.-B. Cheng, and C. Wang, "Continuous-wave 1.57 ㎛/3.84 ㎛ intra-cavity multiple optical parametric oscillator based on MgO:APLN," Acta Phys. Sin. 64, 224215 (2015). DOI |
3 | Q. Sheng, X. Ding, C. Shang, B. Li, C. Fan, H. Zhang, X. Yu, W. Wen, Y. Ma, and J. Yao, "Continuous-wave intra-cavity singly resonant optical parametric oscillator with resonant wave output coupling," Opt. Express 20, 27953-27958 (2012). DOI |
4 | M. H. Chou, K. R. Parameswaran, M. M. Fejer, and I. Brener, "Multiple-channel wavelength conversion by use of engineered quasi-phase-matching structures in LiNbO3 wave-guides," Opt. Lett. 24, 1157-1159 (1999). DOI |
5 | I.-H. Bae, S. D. Lim, J.-K. Yoo, D.-H. Lee, and S. K. Kim, "Development of a mid-infrared CW optical parametric oscillator based on fan-out grating MgO:PPLN pumped at 1064 nm," Curr. Opt. Photon. 3, 33-39 (2019). DOI |
6 | K.-H. Wei, P.-P. Jiang, B. Wu, T. Chen, and Y.-H. Shen, "Fiber laser pumped burst-mode operated picosecond mid-infrared laser," Chin. Phys. B 24, 024217 (2015). DOI |
7 | I.-H. Bae, J.-K. Yoo, S. D. Lim, S. K. Kim, and D.-H. Lee, "Mid-infrared continuous-wave optical parametric oscillator with a fan-out grating MgO:PPLN operating up to 5.3 ㎛," Curr. Opt. Photon. 3, 577-582 (2019). DOI |
8 | A. Zavadilova, V. Kubecek, P. Hirsl, M. Cech, and J.-C. M. Diels, "Intracavity synchronously pumped PPLN picosecond optical parametric oscillator," Proc. SPIE 7138, 71381R (2008). DOI |
9 | Q. Fu, L. Xu, S. Liang, P. C. Shardlow, D. P. Shepherd, S.-U. Alam, and D. J. Richardson, "High-average-power picosecond mid-infrared OP-GaAs OPO," Opt. Express 28, 5741-5748 (2020). DOI |
10 | Y. Wu, S. Liang, Q. Fu, L. Xu, and D. J. Richardson, "Compact picosecond mid-IR PPLN OPO with controllable peak powers," OSA Continuum 3, 2741-2748 (2020). DOI |
11 | W. M. Sigrist, "Mid-infrared laser-spectroscopic sensing of chemical species," J. Adv. Res. 6, 529-533 (2015). DOI |
12 | R. Knappe, H. Haloui, A. Seifert, A. Weis, and A. Nebel, "Scaling ablation rates for picosecond lasers using burst micromachining," Proc. SPIE 7585, 75850H (2010). DOI |