第21卷第3期 2013年3月
文章编号
1004-924X(2013)03-0539-07
光学精密工程
Optics and Precision Engineering
Vol. 21No. 3
Mar.2013
利用偏振光实现空间方位角的快速测量
陆卫国1,2*，吴易明1，高立民1，肖茂森"，王海霞
（1.中国科学院西安光学精密机械研究所，陕西西安710119；
2.中国科学院大学，北京100049）
摘要：为了实现上下不同平面内仪器方位角的快速测量，基于磁光调制和偏报分束构建了一种角度测量系统。根据偏探光的琼斯失量描述方法推导出了系统的测角模型，并采用“差除和"的办法消除光源波动以提高测角精度，分析了谨拉斯顿校镜的两路光信号透射比与入射角、方位角的关系及其对测量结果的影响，讨论了由双光路光电器件的光信号衰减、器件漂移和电路性能的不同带来的增益差异与测量结果的相关性。最后，提出了采用磁光调制的方法来消除两路信号的透射比系数和增益系数的差，从而提高仪器测量精度。实际系统测量实验表明；系统完成测角时间为15s，在十8°
一8°内测角精度优于5”。结果显示该系统具有稳定性高、测角速度快、精度高等特点，关键调：偏振光；磁光调制；方位角测量；湿拉斯顿校镜
中图分类号：TH741.2;O436.3
文献标识码：A
doi;10.3788/OPE.20132103.0539
Rapidmeasurementofspatialazimuthbyusingpolarizedlight
LU Wei-guo'-2, WU Yi-ming', GAO Li-min', XIAO Mao-sen',WANG Hai-xia
(1.Xi'anInstituteof OpticsandPrecisionMechanics， ChineseAcademyof Sciences，Xi'an71o119,China;
2.Universityof ChineseAcademyofSciences,Beijing100049,China)
Correspondingauthor,E-mail;optlwg@gmail.com
Abstract: To measure the spatial azimuths of different instruments in the upper and lower planes rap idly, an angle-measuring system based on magneto-optical modulation and a polarization splitter was proposed. An angle-measuring model of the system was deduced by describing the Jones vector of po-larized light, and the influence of light source fluctuation on the angle-measuring precision was elimi-nated through signal processing method of "difference divided by addition". Then, the relationships between the transmittance and the incidence angle, azimuth for the two pathways of optical signals from the Wollaston prism were analyzed, as well as their effects on the measurement results. Further-more, the dependence of gain differences from optical signal attenuations, device drifts, and circuit performance of opto-electronic elements in two optical paths on the measurement precision were dis-cussed. Finally, a magneto-optical modulation method was proposed to eliminate the difference of transmittances and gain coefficients of the two signals for the achievement of high-precision measure-
收稿日期：2012-10-27；修订日期：2012-12-25.
基金项目：国防科研基金资助项目（No.JPPT-115-3-1360)