全文总字数:3488字
1. 毕业设计(论文)的内容和要求
光纤 Mach-Zehnder 干涉仪在测量微应变和应力的应用中,因为干涉光光强与信号项 φs有关,故其测量特别方便、测量精度特别高,这使得其用途日益广泛。
本课题要求了解Mach-Zehnder 干涉仪的工作原理,掌握相位差的计算方法,搭建一套Mach-Zehnder 光纤干涉仪,测量干涉仪的各项参数,优化光纤干涉仪的稳定度。
2. 实验内容和要求
根据所需的实验器材,搭建一套Mach-Zehnder 光纤干涉仪,测试干涉仪的干涉对比度,相位差随光强的变化关系,相位测量精度,并优化干涉仪的稳定性。
1. 了解Mach-Zehnder 光学干涉原理,建立干涉相位测量的理论模型,计算相位测量灵敏度。
2. 搭建光纤型Mach-Zehnder干涉实验系统,包括锁定等反馈控制环路。
3. 参考文献
1. D. B. Cole et al., Two-wavelength interferometer based on sinusoidal phase modulation with an acetylene stabilized laser and a second harmonic generation, Yoshiyuki Kawata et al., Optics Express 23, 16024 (2015).2. Robert E. Bartolo et al., Integrated heterodyne interferometer with on-chip modulators and detectors,Optics Letters 40, 3097 (2015).3. Thermal Phase Noise Measurements in Optical Fiber Interferometers,IEEE Journal of Quantum Electronics 48, 720 (2012).4. K. Misiakos et al., All-silicon monolithic Mach-Zehnder interferometer as a refractive index and biochemical sensor, Optics Express 22, 26803 (2014).5. Pierrick Cheiney, Lauriane Fouch, Simon Templier, Fabien Napolitano, Baptiste Battelier,Philippe Bouyer,Brynle Barrett.Navigation-Compatible Hybrid Quantum Accelerometer Using a Kalman Filter[J]. Physical Review Applied, 2018, 10(3).6. Ricardo Jimnez-Martnez,Jan Koodyński,Charikleia Troullinou,Vito Giovanni Lucivero,Jia Kong,Morgan W Mitchell. Signal Tracking Beyond the Time Resolution of an Atomic Sensor by Kalman Filtering[J]. Physical Review Letters,2018,120(4).7. Xu Chuan, Zhang Lidan,Huang Songtao,Ma Taxue,Liu Fang,Hidehiro Yonezawa,ZhangYong,Xiao Min. Sensing and tracking enhanced by quantum squeezing[J]. Photonics Research,2019,7(6).8. Hidehiro Yonezawa,Daisuke Nakane,Trevor A. Wheatley,Kohjiro Iwasawa,Shuntaro Takeda,Hajime Arao,Kentaro Ohki,Koji Tsumura,Dominic W. Berry,Timothy C. Ralph,Howard M. Wiseman,Elanor H. Huntington,Akira Furusawa. Quantum-Enhanced Optical-Phase Tracking[J]. Science,2012,337(6101).9. Jimnez-Martnez Ricardo,Koodyński Jan,Troullinou Charikleia,Lucivero Vito Giovanni,Kong Jia,Mitchell Morgan W. Signal Tracking Beyond the Time Resolution of an Atomic Sensor by Kalman Filtering.[J]. Physical review letters,2018,120(4):040503.10. Rashid A,Kim S,Liu D,Kim K Y. A dynamic oppositional biogeography-based optimization approach for time-varying electrical impedance tomography.[J]. Physiological measurement,2016,37(6):820.11. Beker M G,Bertolini A,van den Brand J F J,Bulten H J,Hennes E,Rabeling D S. State observers and Kalman filtering for high performance vibration isolation systems.[J]. The Review of scientific instruments,2014,85(3):034501.12. 马家君,谢泉,田泽安,刘健宁,蒋军彪.基于锁相环的激光陀螺抖动机构频率跟踪技术[J].激光与光电子学进展,2018,55(10):192-197.13. 曹雷,鲁思滨,王锴,姚战伟,李润兵,王谨,詹明生.基于锁相环路的拉曼激光制备及其相位噪声研究[J].量子电子学报,2018,35(04):402-407.14. Hidehiro Yonezawa,Daisuke Nakane,Trevor A. Wheatley,Kohjiro Iwasawa,Shuntaro Takeda,Hajime Arao,Kentaro Ohki,Koji Tsumura,Dominic W. Berry, Timothy C. Ralph,Howard M. Wiseman,Elanor H. Huntington,Akira Furusawa. Quantum-Enhanced Optical-Phase Tracking[J]. Science,2012,337(6101).15. Zhang Lidan,Zheng Kaimin,Liu Fang,Zhao Wei,Tang Lei,Yonezawa Hidehiro,Zhang Lijian,Zhang Yong,Xiao Min. Quantum-limited fiber-optic phase tracking beyond π range[J].Optics express,2019,27(3).
4. 毕业设计(论文)计划
1.开题阶段(2020年4月前):在广泛查阅资料的基础上,完善课题研究方案,完成外文翻译、文献综述和开题报告等工作。
2.实施阶段(2020年5月前):进行课题的原理、设计、调研及结果的处理与分析等,完成毕业设计论文写作。
3.答辩阶段(2020年6月前):完成毕业设计答辩。
以上是毕业论文任务书,课题毕业论文、开题报告、外文翻译、程序设计、图纸设计等资料可联系客服协助查找。