光学学报, 2011, 31 (s1): s100311, 网络出版: 2011-06-23  

激光二极管抽运的单块非平面环形腔可调谐单频激光器

LD Pumped Monolithic Non-Planar Ring Resonator Tunable Single Frequency Lasers
作者单位
1 中国科学院深圳先进技术研究院, 广东 深圳 518055
2 中国科学院理化技术研究所激光物理与技术研究中心, 北京 100190
摘要
报道了激光二极管(LD)抽运的单块非平面环形腔可调谐单频激光器的实验结果。采用LD抽运单块非平面环形腔Nd∶YAG激光晶体,分别获得了1080 mW和580 mW的1064 nm和1319 nm激光输出,对应的光-光转换效率分别为40.9%和14.3%。用法布里-珀罗(F-P)扫描法测量了激光的输出模式及线宽,对应的两种输出均为单横模、单纵模运作,其线宽分别为Δν1064 nm=41 MHz和Δν1319 nm=150 MHz。对两种输出的光束质量进行了测量,其光束质量因子分别为M21064 nm=1.14和M21319 nm=1.15。对两种激光的温度调谐特性进行了测量,1064 nm单频激光的调谐范围48.2 GHz,平均调谐精度1.42 GHz/℃;1319 nm单频激光的调谐范围12.7 GHz,平均调谐精度2.92 GHz/℃。
Abstract
Experimental results of laser diode (LD) pumped monolithic non-planar ring resonator (NPRO) tunable single frequency lasers are reported. 1064 nm and 1319 nm lasers with the power of 1080 mW and 580 mW are obtained by LD pumped monolithic NPRO Nd∶YAG crystal, whose corresponding optical-optical efficiencies are 40.9% and 14.3%, respectively. The longitudinal mode and the linewidth of the lasers are measured using the scanning Fabry-Perot interferometer, which shows both of the two lasers are operating in single longitudinal and fundamental transverse mode, the linewidth of the two lasers are Δν1064 nm=41 MHz and Δν1319 nm=150 MHz, respectively. The beam quality of the two single frequency laser are measured by a beam quality analysis, which shows the beam quality factor are M21064 nm=1.14 and M21319 nm=1.15, respectively. The frequency tuning of the single frequency lasers are also studied by adjusting the temperature of the crystal. The maximal tuning range of 1064 nm laser is about 48.2 GHz with a average tuning coefficient of 1.42 GHz/℃; the maximal tuning range of 1319 nm laser is about 12.7 GHz with a average tuning coefficient of 1.42 GHz/℃.

鲁远甫, 宗楠, 薄勇, 谢仕永, 冯广智, 金雷, 彭钦军, 崔大复, 许祖彦. 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, Xie Shiyong, Feng Guangzhi, Jin Lei, Peng Qinjun, Cui Dafu, Xu Zuyan. LD Pumped Monolithic Non-Planar Ring Resonator Tunable Single Frequency Lasers[J]. Acta Optica Sinica, 2011, 31(s1): s100311.

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