electro-optic coefficient 电光系数
stress optic coefficient 应力光学系数
quadratic electro-optic coefficient 二次电光系数
thermal-optic coefficient 热光系数
nonlinear optic coefficient 非线性光学系数
The largest depolarized loss induced by variation of electro-optic coefficient and stress birefringence is correspondingly 2.38%, 4.04%.
电光系数随温度变化及应力双折射引入的最大退偏损耗分别为2.38%和4.04%。
The simulated results indicate: variation of electro-optic coefficient as well as stress birefringence is the main factor, which induces depolarized loss of the switch.
数值模拟显示:电光系数随温度变化和应力双折射是引起开关退偏损耗的主要因素。
The surface micrographs of the poled samples and the electro-optic coefficient measurement results show that the corona poling technique with grid has better performance than the one without grid.
实验结果显示,栅极偏置电晕放电极化系统的电光聚合物极化效果较无栅极时好得多。
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