基于ZnGeP2光参量振荡器的长波红外双波段调谐实验研究

Experimental study on tunable characteristics of optical parametric oscillator based on ZnGeP2 in long-infared dual-band

  • 摘要: 文中报道了一种基于ZnGeP2 (ZGP) 的纳秒宽调谐长波红外光参量振荡器(optical parametric oscillation, OPO)。采用重复频率50 Hz、脉冲宽度小于10 ns的1064 nm基频光泵浦基于Ⅱ类相位匹配KTP的光参量振荡器产生2.1 μm激光,进而泵浦基于Ⅰ类相位匹配的ZGP光参量振荡器产生7~11 μm长波红外输出。通过对ZGP的角度调谐获得了2.815~2.963 μm连续可调谐信号光,对应闲频光波长连续可调谐范围为7.82~9.08 μm。通过泵浦波长调谐的方式,当采用2107.13~2153.95 nm范围内的激光泵浦ZGP-OPO,获得了信号光波长范围为2.624~2.662 μm和2.745~2.956 μm的连续可调谐输出,对应闲频光范围为7.94~9.07 μm和10.20~10.82 μm。闲频光波长为8.03 μm、能量为0.8 mJ时,ZGP-OPO的泵浦光至闲频光转换效率9.4%。

     

    Abstract: A widely tunable long-infrared optical parametric oscillator (OPO) based on ZnGeP2 (ZGP) with nanosecond pulses output in dual bands was reported in this paper. As a fundamental laser of ZGP-OPO, KTP- OPO of 2.1 μm based on type Ⅱ phase match was pumped by 1064 nm fundamental delivering <10 ns pulses at 50 Hz. Furthermore, the ZGP-OPO of 7-11 μm based on type Ⅰ phase match was designed. Continuous-tunable signal wavelengths of 2.815-2.963 μm corresponding idle wavelengths of 7.82-9.08 μm was obtained using angle tuning of ZGP. Continuous-tunable signal wavelengths of 2.624-2.662 μm and 2.745-2.956 μm, which correspond the idle wavelengths of 7.94-9.07 μm and 10.20-10.82 μm respectively , were obtained using pump wavelengths tuning. The single-pulse energy was 0.8 mJ at 8.03 μm, pump to idler conversion efficiency was 9.4%.

     

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