本实验室用布里奇曼方法成功生长出有应用前景的新型四元非线性AgGa1-xInxSe2晶体,对晶体光学透过,红外低倍显微成像,反射损耗和吸收系数进行了研究和计算.基于纯AgGaSe2和AgInSe2的Sellmeier方程,用线性内插方法计算了不同In含量的AgGa1-xInxSe2在0.9~19μm的Sellmeier色散系数并建立了Sellmeier方程.计算和描绘了Ⅰ型相位匹配CO2激光二次谐波产生的调谐曲线,并标出我们的倍频实验数据.在近似非临界相位匹配条件下,进行了TEA CO2激光10.6μm在AgGa1-xInxSe2中的倍频实验研究,并与AgGaSe2进行了比较,测量的1#AgGa1-xInxSe2相位匹配角θ及相位匹配接收外角△θext·L分别为88.2°和7.7°·cm,AgGa1-xInxSe2的倍频效率比AgGaSe2高出近3倍.
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