[1] Xu Guozhen. Handbook of Inertial Technology[M]. Beijing: China Astronautic Publisbing House, 1995
[2] D. Loukianov, R. Rodloff, H. Sorg et al.. Optical Gyros and Their Application[R]. Rto Agard ograph 339, 1999: 4.1~4.26
[3] M. Fernandez, B. Ebner, N. Dahlen. Zero-lockTM laser gyro[C]. Proceedings of the Annual Rocky Mountain Guidance and Control Conference, Keystone,CA, 1989: 235~241.
[4] Northrop grumman corporation, LN-100 G intertial navigation system with embedded http://www.es.northropgrumman.com/solutions/ln100g/index.html, 2010. 7, 2
[8] Jiang Yanan. Ring Laser Gyro[M]. Beijing: Tsinghua University Press, 1985. 54~57
[10] Luo Hui, Guo Shaojun, Hu Shaomin et al.. Research and design on high precision frequency-stability measurement system of ring laser gyroscope[J]. Chin. J. Inertial Technol., 2005, 13(6): 86~89
[11] Tae W. Hahn. Cavity length control apparatus for a multioscillator[P]. US Patent, 4963026, 1990.10.26
[14] Xu Guangming, Zhang Bin, Jiang Anguo et al.. Laser frequency stabilization for differential ring lasers[J]. J. Optoelectronics·Laser, 2000, 11(1): 49~53
[15] Albert N. Zampiello, Bradley J. Patch. Jr. Laser gyroscope detector and path length control system[P]. US Patent 4108553, 1978.08.22
[16] Xie Yuanping. Investigation of phase demodulation and frequency stabilization techniques in mechanically dithered ring laser gyroscopes [D]. Changsha: National University of Defense Technology, 2000
[17] Zhou Bingkun, Gao Yizhi, Chen Ti′rong et al.. Laser Principle (Fourth Edition)[M]. Beijing: Press of Defense Technology, 2000. 183~184