Birefringence elimination of bismuth germanate crystal in quasi-reciprocal reflective optical voltage sensor

Xiujuan Feng; Lijing Li; Xiaxiao Wang; Chunxi Zhang; Jia Yu; Chuansheng Li

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Birefringence elimination of bismuth germanate crystal in quasi-reciprocal reflective optical voltage sensor

机译：准双向反射光电压传感器中锗酸铋晶体的双折射消除

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Bismuth germanate (Bi_4Ge_3O_(12), BGO) has been widely utilized for the application of Pockels effect-based voltage and electric field sensors, because it possesses no unwanted effects ideally. However, there are multiple birefringences in BGO crystal induced by natural imperfections, temperature-dependent strain, and external pressure (or stress), which influences the demodulation of the Pockels effect induced by the voltage to be measured. For a Pockels effect-based quasi-reciprocal reflective optical voltage sensor, the influences of the multiple birefringences in BGO crystal are investigated and an elimination scheme is also proposed in this paper. The feasibility of the proposed elimination scheme is simulated and experimentally verified.

机译：锗酸铋（Bi_4Ge_3O_（12），BGO）已被广泛用于基于Pockels效应的电压和电场传感器，因为它理想地没有不良影响。但是，由于自然缺陷，与温度有关的应变和外部压力（或应力）引起的BGO晶体中存在多种双折射，这会影响由待测电压引起的普克尔效应的解调。对于基于Pockels效应的准双向反射光学电压传感器，研究了BGO晶体中多重双折射的影响，并提出了消除方案。仿真和实验验证了所提出的消除方案的可行性。

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《Applied optics》 |2013年第8期|共6页
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Xiujuan Feng; Lijing Li; Xiaxiao Wang; Chunxi Zhang; Jia Yu; Chuansheng Li;
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1. Birefringence elimination of bismuth germanate crystal in quasi-reciprocal reflective optical voltage sensor [J] . Xiujuan Feng, Lijing Li, Xiaxiao Wang, Applied optics . 2013,第8期

机译：准双向反射光电压传感器中锗酸铋晶体的双折射消除
2. Quasi-reciprocal reflective optical voltage sensor based on Pockels effect with digital closed-loop detection technique [J] . Chunxi Zhang, Xiujuan Feng, Sheng Liang, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2010,第20期

机译：基于Pockels效应的准互易反射光电压传感器与数字闭环检测技术
3. Optical electric-power sensor by use of one bismuth germanate crystal [J] . Changsheng Li, Xiang Cui, Yoshino T. Journal of Lightwave Technology . 2003,第5期

机译：使用锗酸铋晶体的光功率传感器
4. Development of bismuth doped lead-aluminum-zinc-germanate glass as a broadband optical gain medium [C] . M. Hughes, T. Suzuki, Y. Ohishi Optical components and materials VI . 2009

机译：铋掺杂铝酸铅锌锗玻璃作为宽带光增益介质的研制
5. Fabrication and optical effects of a discotic negative birefringence film for liquid crystal displays [D] . Mori, Hiroyuki 1999

机译：用于液晶显示器的盘状负双折射膜的制备和光学效果
6. Temperature-Independent Gas Pressure Sensor with High Birefringence Photonic Crystal Fiber-Based Reflective Lyot Filter [O] . Bo Huang, Ying Wang, Chun Mao 2019

机译：具有高双折射光子晶体光纤反射式Lyot滤光片的与温度无关的气压传感器
7. Spectroscopic Characterization and Systematic Crystal-field Modeling of Optically Active Rare Earth R3+ Ions in the Bismuth Germanate BiY1-xRxGeO5 Host [O] . -1

机译：光学活性稀土R3 +离子在铋锗酯BIY1-XRXGEO5宿主中的光谱表征和系统晶体场建模
8. Monte Carlo Calculations of the Optical Coupling Between Bismuth Germanate Crystals and Photomultiplier Tubes [R] . Derenzo, S. E., Riles, J. K. 1981

机译：蒙特卡罗计算锗酸铋晶体与光电倍增管之间的光学耦合

Birefringence elimination of bismuth germanate crystal in quasi-reciprocal reflective optical voltage sensor

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