| 光谱学与光谱分析 |
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| Determination of Optical Axis of Quartz wave Plate Based on Spectroscopic Ellipsometer |
| ZHANG Bei-bei, HAN Pei-gao*, FU Shi-rong, ZHU Jiu-kai, YAN Ke-zhu* |
| Shandong Provincial Key Laboratory of Laser Polarization and Information Technology,Laser Institute, Qufu Normal University, Qufu 273165, China |
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Abstract The optical axis is one of the most important parameters in the application of wave plates. In the transmission mode of spectroscopic ellipsometer, taking the advantage of Jones matrix to analyse the phase difference of P and S directions in the process of spinning wave plate, a new method for the determination of optical axis of quartz wave plate was designed. The method has characteristics of simple light path structure and high efficiency in the judging of the optical axis, and this method thus got a good practicability.
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Received: 2012-06-29
Accepted: 2012-10-05
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Corresponding Authors:
HAN Pei-gao, YAN Ke-zhu
E-mail: pghan@foxmail.com; yankezhu@126.com
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[1] CHENG Xiao-tian, LI Yin-zhu, LIU Cheng, et al(程笑天,李银柱,刘 诚,等). Chinese J. Laser(中国激光), 2003, 30(7): 651.
[2] WANG Gui-xia, XU Chang-jie, WANG Qing-song(汪桂霞,徐昌杰, 王青松). Laser & Infrared(激光与红外),2006,36(8): 699.
[3] YU Chun-ri(余春日). Laser Technology(激光技术),2003, 27(4): 383.
[4] YAN Ming, GAO Zhi-shan(严 明,高志山). J. Optoeletronics·Laser(光电子·激光),2005, 16(2): 183.
[5] REN Hong-liang, WANG Jiu-yang, LOU Li-ren, et al(任洪亮,王久扬,楼立人,等). Chinese J. Lasers(中国激光), 2008, 35(2): 249.
[6] WANG Wei, LI Guo-hua, WU Fu-quan, et al(王 伟,李国华,吴福全,等). Chinese J. Lasers(中国激光), 2003, 30(12): 1121.
[7] WANG Ji-ming, LI Guo-hua(王吉明,李国华). Optical Technique(光学技术), 2002, 28(3):245, 249.
[8] SONG Lian-ke,HAO Dian-zhong(宋连科,郝殿中). Optical Technique(光学技术), 2005, 31(5): 679. |
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