1.6 μm波段单频激光器技术研究进展 下载: 595次
王然, 高春清. 1.6 μm波段单频激光器技术研究进展[J]. 激光与光电子学进展, 2013, 50(8): 080006.
Wang Ran, Gao Chunqing. Progress of 1.6 μm Region Single-Frequency Lasers[J]. Laser & Optoelectronics Progress, 2013, 50(8): 080006.
[1] 郑耀辉, 张宽收. 激光二极管泵浦的高效、单频Nd:YVO4激光器[J]. 量子光学学报, 2005, 11(2): 88-92.
[2] Xinlu Zhang, Youlun Ju, Yuezhu Wang. Diode-pumped single frequency Tm,HoYLF laser at room temperature [J]. Chin Opt Lett, 2005, 3(8): 463-465.
[3] F Song, L J Luo, X C Yu, et al.. Intense 1.54 μm fluorescence of Er3+/Yb3+ co-doped phosphate glass and the three-photon phenomenon of near infrared upconversion luminescence [J]. J Appl Phys, 2010, 107(3): 033110.
[4] 张伟南, 李灿, 冯洲明, 等. 基于高掺Yb3+磷酸盐光纤的1080 nm短腔单频光纤激光器[J]. 激光与光电子学进展, 2012, 49(10): 100601.
[5] T Sasaki, T Kojima, A Yokotani, et al.. Single-longitudinal-mode operation and second-harmonic generation of Nd:YVO4 microchip lasers [J]. Opt Lett, 1991, 16(21): 1665-1667.
[6] G L Bourdet, G Lescroart, R Muller. Spectral characteristics of 2 μm microchip TmYVO4 and Tm,HoYLF lasers [J]. Opt Commun, 1998, 150(1): 141-146.
[7] T Y Fan, J Ochoa. Tunable single-frequency Yb:YAG Laser with 1-W output power using twisted-mode technique [J]. IEEE Photon Technol Lett, 1995, 7(10): 1137-1138.
[8] E Wu, H Pan, S Zhang, et al.. High power single-longitudinal-mode operation in a twisted-mode-cavity laser with a c-cut Nd:GdVO4 crystal [J]. Appl Phys B, 2005, 80(4): 459-462.
[9] C Gao, R Wang, Z Lin, et al.. 2 μm single-frequency Tm:YAG laser generated from a diode-pumped L-shaped twisted mode cavity[J]. Appl Phys B, 2012, 107(1): 67-70.
[10] C P Hale, J W Hobbs, P Gatt. Broadly tunable master/local oscillator lasers for advanced laser radar applications [C]. SPIE, 2003, 5086: 253-263.
[11] 吴霞, 杨苏辉, 陈颖, 等. 耦合腔结构可调谐双频固体激光器的研究[J]. 光学学报, 2012, 32(3): 0314003.
[12] C Pedersen, P L Hansen, T Skettrup, et al.. Diode-pumped single-frequency Nd:YVO4 laser with a set of coupled resonators [J]. Opt Lett, 1995, 20(12): 1389-1391.
[13] Xi Wenqiang, Zhao Jingyun, Zhang Kuanshou. A high-power continuous-wave laser-diode end-pumped Nd:YVO4 laser of single-frequency operation [J]. Chin Phys Lett, 2005, 22(5): 1144-1147.
[14] 陈三斌, 周寿桓, 赵鸿, 等. 10 W线偏振连续单频环形腔激光器[J]. 光学学报, 2010, 30(3): 793-796.
[15] 赵伟芳, 侯玮, 郭林, 等. 7.5 W Nd:GdVO4环形腔单频激光器[J]. 光学学报, 2011, 31(5): 0514003.
[16] T J Kane, R L Byer. Monolithic, unidirectional single-mode Nd:YAG ring laser [J]. Opt Lett, 1985, 10(2): 65-67.
[17] I Freitag, I Krpke, H Welling. Electrooptically fast tunable miniature diode-pumped Nd:YAG ring laser [C]. Advanced Solid State Lasers, 1993. LM10.
[18] I Freitag, A Tünnermann, H Welling. Power scaling of diode-pumped monolithic Nd:YAG lasers to output powers of several watts [J]. Opt Commun, 1995, 115(5): 511-515.
[19] P Burdack, T Fox, M Bode, et al.. 1 W of stable single-frequency output at 1.03 μm from a novel, monolithic, non-planar Yb:YAG ring laser operating at room temperature [J]. Opt Express, 2006, 14(10): 4363-4367.
[20] B Q Yao, X M Duan, D Fang, et al.. 7.3 W of single-frequency output power at 2.09 μm from an HoYAG monolithic nonplanar ring laser [J]. Opt Lett, 2008, 33(18): 2161-2163.
[21] 鲁远甫, 宗楠, 薄勇, 等. 激光二极管抽运的单块非平面环形腔可调谐单频激光器[J]. 光学学报, 2011, 31(s1): s100311.
Lu Yuanfu, Zong Nan, Bo Yong, et al.. LD pumped monolithic non-planar ring resonator tunable single frequency lasers [J]. Acta Optica Sinica, 2011, 31(s1): s100311.
[22] L Wang, C Q Gao, Mingwei Gao, et al.. Resonantly pumped monolithic nonplanar HoYAG ring laser with high-power single-frequency laser output at 2122 nm [J]. Opt Express, 2013, 21(8): 9541-9546.
[23] American National Standards Institute. American National Standard for Safe Use of Lasers [S]. ANSI Z136.1, 2007.
[24] 张宽收, 李鹏, 刘建丽. 连续波单共振光学参量振荡器的研究及进展[J]. 山西大学学报, 2012, 35(2): 243-247.
Zhang Kuanshou, Li Peng, Liu Jianli. Continuous-wave singly resonant optical parametric oscillator [J]. J Shanxi University, 2012, 35(2): 243-247.
[25] A Fix, U Büdenbender, C U Wirth, et al.. Optical parametric oscillators and amplifiers for airborne and spaceborne active remote sensing of CO2 and CH4 [C]. SPIE, 2011, 8182: 818206.
[26] Liu Jianli, Liu Qin, Li Hong, et al.. Low noise, continuous-wave single-frequency 1.5-μm laser generated by a singly resonant optical parametric oscillator [J]. Chin Phys B, 2011, 20(11): 114215.
[27] 刘建丽, 刘勤, 李晓青, 等. 1.5 μm连续内腔单共振光学参量振荡器运转特性的实验研究[J]. 山西大学学报, 2011, 34(2): 219-222.
Liu Jianli, Liu Qin, Li Xiaoqing, et al.. Experimental investigation of continuous-wave single-frequency 1.5 μm intracavity singly resonant optical parametric oscillator [J]. J Shanxi University, 2011, 34(2): 219-222.
[28] F Song, S J Liu, Z H Wu, et al.. Determination of the thermal loading in laser diode pumped erbium ytterbium codoped phosphate glass microchip laser [J]. J Opt Soc Am B, 2007, 24(9): 2327-2332.
[29] 殷科, 许将明, 冷进勇, 等. 高功率光纤拉曼激光器研究进展[J]. 激光与光电子学进展, 2012, 49(1): 010004.
[30] S H Chang, I K Hwang, B Y Kim. Widely tunable single-frequency Er-doped fiber laser with linear cavity [J]. IEEE Photon Technol Lett, 2000, 13(4): 287-289.
[31] Zhao Ming, Guo Yubin, Wang Tianshu, et al.. Short cavity single-frequency all-fiber Er/Yb co-doped laser [J]. Frontiers of Optoelectronics in China, 2009, 2(1): 81-85.
[32] S H Xu, Z M Yang, T Liu, et al.. An efficient compact 300 mW narrow-linewidth single frequency fiber laser at 1.5 μm [J]. Opt Express, 2010, 18(2): 1249-1254.
[33] 杨飞, 陈迪俊, 潘政清, 等. 光纤光栅主动稳频的短直线腔单频光纤激光器[J]. 中国激光, 2012, 39(9): 0902005.
[34] C Alegria, Y Jeong, C Codemard, et al.. 83-W single-frequency narrow-linewidth MOPA using large-core erbium-ytterbium co-doped fiber [J]. IEEE Photon Technol Lett, 2004, 16(8): 1825-1827.
[35] A J McGrath, J Munch, G Smith, et al.. Injection-seeded, single-frequency, Q-switched erbium:glass laser for remote sensing [J]. Appl Opt, 1998, 37(24): 5706-5709.
[36] S Taccheo, G Sorbello, P Laporta, et al.. 230-mW diode-pumped single-frequency ErYb laser at 1.5 μm [J]. IEEE Photon Technol Lett, 2001, 13(1): 19-21.
[37] T Yanagisawa, K Asaka, K Hamazu, et al.. 11-mJ, 15-Hz single-frequency diode-pumped Q-switched Er3+/Yb3+phosphate glass laser [J]. Opt Lett, 2001, 26(16): 1262-1264.
[38] Y Li, J Feng, P Li, et al.. 400 mW low noise continuous-wave single-frequency Er,YbYAl3 laser at 1.55 μm [J]. Opt Express, 2013, 21(5): 6082-6090.
[39] R C Stoneman, S W Henderson. High-power eyesafe laser transmitter for microDoppler coherent lidar [C]. 14th Annual Meeting of the IEEE Lasers and Electro-Optics Society, 2001, 1: 342-343.
[40] R C Stoneman, R Hartman, A I Malm, et al.. Coherent laser radar using eyesafe YAG laser transmitters [C]. SPIE, 2005, 5791: 167-174.
[41] R C Stoneman, R Hartman, E A Schneider, et al.. Eyesafe diffraction limited single frequency 1 ns pulsewidth Er:YAG laser transmitter [C]. SPIE, 2007, 6552: 65520H.
[42] J W Kim, J K Sahu, W A Clarkson. Efficient single axial mode operation of an Er:YAG ring laser at 1645 nm [C]. Quantum Electronics and Laser Science, 2008. CTuAA4.
[43] N W H Chang, D J Hosken, J Munch, et al.. Stable, single frequency Er:YAG lasers at 1.6 μm [J]. IEEE J Quantum Electron, 2010, 46(7): 1039-1042.
[44] D W Chen, P M Belden, T S Rose, et al.. Narrowband Er:YAG nonplanar ring oscillator at 1645 nm [J]. Opt Lett, 2011, 36(7): 1197-1199.
[45] B Q Yao, X L Liu, L X Yu, et al.. Resonantly pumped single frequency Er:YAG laser at 1645 nm [J]. Laser Phys, 2012, 22(2): 403-405.
[46] L N Zhu, C Q Gao, R Wang, et al.. Resonantly pumped 1.645 μm single longitudinal mode Er:YAG laser with intracavity etalons [J]. Appl Opt, 2012, 51(10): 1616-1618.
[47] L N Zhu, C Q Gao, R Wang, et al.. Fiber-bulk hybrid Er:YAG laser with 1617 nm single frequency laser output [J]. Laser Phys Lett, 2012, 9(9): 674-677.
[48] C Q Gao, L N Zhu, R Wang, et al.. 6.1 W single frequency laser output at 1645 nm from a resonantly pumped Er:YAG non-planar ring oscillator [J]. Opt Lett, 2012, 37(11): 1859-1861.
[49] R Wang, C Q Gao, Y Zheng, et al.. Resonantly pumped 1645 nm Er:YAG non-planar ring oscillator with 10.5 W single frequency output [J]. IEEE Photon Technol Lett, 2013, 25(10): 955-957.
[50] Y Zheng, C Q Gao, R Wang, et al.. Single frequency 1645 nm Er:YAG nonplanar ring oscillator resonantly pumped by a 1470 nm laser diode [J]. Opt Lett, 2013, 38(5): 784-786.
王然, 高春清. 1.6 μm波段单频激光器技术研究进展[J]. 激光与光电子学进展, 2013, 50(8): 080006. Wang Ran, Gao Chunqing. Progress of 1.6 μm Region Single-Frequency Lasers[J]. Laser & Optoelectronics Progress, 2013, 50(8): 080006.