[1] Jing Zhen(荆震). High Stability of Crystal Oscillator(高稳定晶体振荡器)[M]. Beijing(北京): National Defence Industry Press(国防工业出版社), 1975.
[2] Zhao Sheng-heng(赵声衡), Zhao Ying(赵英). Crystal Oscillator(晶体振荡器)[M]. Beijing(北京): Science Press(科学出版社), 2007. 101-102.
[3] Gao Jin-zhan(高晋占). Detection of Weak Signals(微弱信号检测)[M]. Beijing(北京): TsingHua University of Press(清华大学出版社) 2004.
[4] Zhao Sheng-heng(赵声衡), Zhao Ying(赵英). Crystal Oscillator(晶体振荡器)[M]. Beijing(北京): Science Press(科学出版社), 2007. 207
[5] Zhao Sheng-heng(赵声衡), Zhao Ying(赵英). Crystal Oscillator(晶体振荡器)[M]. Beijing(北京): Science Press(科学出版社), 2007. 106, 124
[6] Zhao Sheng-heng(赵声衡). Precision Oven Principle(精密恒温槽原理)[M]. Changsha(长沙): Hunan Science and Technology Press(湖南科学出版社), 1991.
[7] Audoin C, Candelier V, Dimarcq N. A Limit to the frequency stability of passive frequency standards due to an intermodulation effect[J]. IEEE T Instrum Meas, 1991, 40(2): 121-125.
[8] Deng J Q, De Marchi A, Walls F L, et al. Frequency Stability of Cell-Based Passive Frequency Standards: Reducing the Effects of Local-Oscillator PM Noise//IEEE. Frequency Control Symposium, 1998[C]. Proceedings of the 1998 IEEE International, Pasadena, CA. 1998, 95-98.
[9] Mileti G, Deng J Q, Walls F L, et al. Recent Progress in Laser-pumped Rubidium Gas Cell Frequency Standards//IEEE. Frequency Control Symposium, 1996[C]. Proceedings of the 1996 IEEE International, Honolulu, HI. 1996, 1066-1072. |