摘要
We report an efficient nanosecond optical parametric generator (OPG) with a periodically-phase-reversed periodically poled MgO:LINbO3 (ppr-PPMgLN), which produces two pairs of signal and idler waves. The OPG is pumped by a 1.064μm Q-switched Nd:YVO4 laser. When the repetition rate is set at 10kHz, the maximum average total output power of 570mW is achieved, including 410mW of dual-signal radiations and 160mW of dual-idler radiations. The total conversion efficiency is 32.5%. The tunable dual-signal wavelengths in the range of 1.474-1.518μm and 1.490-1.539μm and the dual-idler of 3.826-3.558 μm and 3. 726-3.451 μm are obtained by changing the crystal temperature from 30℃ to 200℃.
We report an efficient nanosecond optical parametric generator (OPG) with a periodically-phase-reversed periodically poled MgO:LINbO3 (ppr-PPMgLN), which produces two pairs of signal and idler waves. The OPG is pumped by a 1.064μm Q-switched Nd:YVO4 laser. When the repetition rate is set at 10kHz, the maximum average total output power of 570mW is achieved, including 410mW of dual-signal radiations and 160mW of dual-idler radiations. The total conversion efficiency is 32.5%. The tunable dual-signal wavelengths in the range of 1.474-1.518μm and 1.490-1.539μm and the dual-idler of 3.826-3.558 μm and 3. 726-3.451 μm are obtained by changing the crystal temperature from 30℃ to 200℃.
基金
Supported by the National Natural Science Foundation of China under Grant No 10474071, and the Tianjin Municipal Primary Application and Frontier Technology Research Plan under Grant No 07JCYBJC06200.
