NPBS反射相移和分光比的温度特性及其对OCRCS系统的影响
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摘要
本论文研究无偏振分束器(Non-Polarizing Beam Splitter:NPBS)反射相移和分光比温度特性、其对正交共轭反射镜电流传感器(OrthoconjugateReflector Current Sensor:OCRCS)输出稳定性的影响及相应的温度补偿技术。
本文基于偏振光学原理对NPBS反射相移和分光比的温度特性进行了理论分析;设计了测量NPBS反射相移和分光比的温度特性的方法;对该方法的工作原理进行了理论论证与实验,并给出了测量NPBS反射相移和分光比温度特性的实验方案;对NPBS反射相移和分光比的温度特性对OCRCS输出稳定性的影响及相应的温度补偿效果进行了计算机仿真。研究结果表明,当温度在5°C—40°C范围内变化时,NPBS的分光比和反射相移发生了变化,但只有分光比的温度特性影响系统输出的稳定性,该影响可以采用对系统输出尺度因子进行温度补偿的方法来消除,从而提高系统的输出稳定性。实际实验结合仿真分析验证了该方法的正确性与可行性。
The temperature features of the reflection-induced retardance and splitting ratio of a NPBS (Non-Polarizing Beam Splitter) are investigated, their influences on the output stability of OCRCS (Orthoconjugate Reflector Current Sensor) are analyzed, and corresponding temperature compensation techniques are discussed.
The temperature features of the reflection-induced retardance and splitting ratio of NPBS are theoretically analyzed based on the principles of Polarization Optical. The method to measure the temperature features of the reflection-induced retardance and splitting ratio of a NPBS is designed and verified theoretically and experimentally. The schemes on measuring the temperature features of the reflection-induced retardance and splitting ratio are proposed. The influences of the temperature features of the reflection-induced retardance and splitting ratio on the stability of the output of an OCRCS and the corresponding temperature compensation effects are simulated. The result shows that when temperature varies in a range from 5℃to 40℃, only the splitting ratio has influences on the stability of the output. Temperature compensation of scale factor could eliminate this effect, and thus strengthen the stability of the system. Actual experimental results and quantitative simulation analysis on these results prove the correctness of the method and its feasibility.
本文基于偏振光学原理对NPBS反射相移和分光比的温度特性进行了理论分析;设计了测量NPBS反射相移和分光比的温度特性的方法;对该方法的工作原理进行了理论论证与实验,并给出了测量NPBS反射相移和分光比温度特性的实验方案;对NPBS反射相移和分光比的温度特性对OCRCS输出稳定性的影响及相应的温度补偿效果进行了计算机仿真。研究结果表明,当温度在5°C—40°C范围内变化时,NPBS的分光比和反射相移发生了变化,但只有分光比的温度特性影响系统输出的稳定性,该影响可以采用对系统输出尺度因子进行温度补偿的方法来消除,从而提高系统的输出稳定性。实际实验结合仿真分析验证了该方法的正确性与可行性。
The temperature features of the reflection-induced retardance and splitting ratio of a NPBS (Non-Polarizing Beam Splitter) are investigated, their influences on the output stability of OCRCS (Orthoconjugate Reflector Current Sensor) are analyzed, and corresponding temperature compensation techniques are discussed.
The temperature features of the reflection-induced retardance and splitting ratio of NPBS are theoretically analyzed based on the principles of Polarization Optical. The method to measure the temperature features of the reflection-induced retardance and splitting ratio of a NPBS is designed and verified theoretically and experimentally. The schemes on measuring the temperature features of the reflection-induced retardance and splitting ratio are proposed. The influences of the temperature features of the reflection-induced retardance and splitting ratio on the stability of the output of an OCRCS and the corresponding temperature compensation effects are simulated. The result shows that when temperature varies in a range from 5℃to 40℃, only the splitting ratio has influences on the stability of the output. Temperature compensation of scale factor could eliminate this effect, and thus strengthen the stability of the system. Actual experimental results and quantitative simulation analysis on these results prove the correctness of the method and its feasibility.
引文
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