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首页> 外文期刊>Optical and quantum electronics >Efficient generation of a continuous-wave, tunable 780 nm laser via an optimized cavity-enhanced frequency doubling of 1.56 um at low pump powers
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Efficient generation of a continuous-wave, tunable 780 nm laser via an optimized cavity-enhanced frequency doubling of 1.56 um at low pump powers

机译:在低泵浦功率下,通过优化的腔增强倍频1.56 um,可以高效地产生780 nm连续波可调谐激光器

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摘要

We present the strict design parameters of the experiment for the 780 nm tunable continuous-wave second harmonic (SH) generation by the nonlinear resonator containing a MgO doped periodically poled LiNbO_3 (MgO:PPLN) crystal. Optimization of such critical parameters, including focusing and impedance matching, more than 84% SH conversion efficiency and 3.1 W available output power at 780 nm were obtained from the fundamental wave at 1560 nm with two different input couplers. The thermal saturated behavior of the SH output power has been observed in the experiment. The beam quality factor M~2 of the generated SH wave is 1.04 (1.03), and the RMS power stability is 1.29% in 3 h. The SH wave was further used to detect the D_2 transitions of Rb atom, exhibiting a fine tunable characteristic. Such laser source can be a suitable candidate in the atomic physics and quantum optics.
机译:我们提出了由包含MgO掺杂的周期性极化LiNbO_3(MgO:PPLN)晶体的非线性谐振器产生780 nm可调连续波二次谐波(SH)的实验的严格设计参数。通过使用两个不同的输入耦合器,从1560 nm的基波获得了包括聚焦和阻抗匹配,超过84%的SH转换效率和3.1 W的可用输出功率(780 nm)在内的此类关键参数的优化。在实验中观察到了SH输出功率的热饱和行为。所产生的SH波的光束质量因子M〜2为1.04(1.03),在3小时内RMS功率稳定性为1.29%。 SH波被进一步用于检测Rb原子的D_2跃迁,表现出良好的可调特性。这样的激光源可以是原子物理学和量子光学中的合适候选者。

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