2VIG J R. Military applications of high accuracy frequency standards and clocks [ J ]. IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control, 1993, 40 ( 5 ) :522 - 527.
3FILLER R L. The acceleration sensitivity of quartz crystal os- cillators:a review [J]. IEEE Transactions on Uhrasonics,Fer- roelectricsand Frequency Control, 1988,35 (3) :297 - 305.
4MILLIREN B T,MARTINAND D W,EMMONS D A. An ac- celeration compensated Precision Quartz Oscillators [ C]. Proceedings of the 42nd Annual Frequency Control Symposi- um, 1988:334 - 341.
5STEVEN J F, GREGORY A. Burnett. Reducing the accelera- tion sensitivity of AT - strip quartz crystal oscillators[ C ]. IEEE International Frequency Control Symposium, 2010: 25 - 30.
6ROHDE U L, PODDAR A K. Noise minimization tech-niques for voltage controlled crystal oscillator (VCXO) circuits [ C ]. Proceedings of the 4th Intemational Confer- ence on Radio and Wireless Symposium, 2009:280-283 .
7GAO J Y, HUANG X H, WANG Y. The modified design of ring electrode quartz crystal resonator for uniform mass sensitivity distribution [ J ]. IEEE Transactions on Ultra- sonics Ferroeldectrics and Frequency Control, 2013, 60 (9) :2031-2034.
8LIN C M. Thermally compensated aluminum nitride Lamb wave resonators for high temperature applications [ J ]. Applied Physics Letters, 2010,97 (8) : 083501.
9ZHOU W, LI L, FENG B Y, et al. A study of tempera- ture compensated crystal oscillator based on stress pro- cessing[C]. IEEE International Frequency Control Sym- posium, 2007:272-274.
10ZHOU W, JIANG H, GAO J N, et al. Double tempera- ture compensated crystal oscillator [ C ]. Proceedings of the 2004 IEEE International Frequency Control Symposi- um And Exhibition (IEEE Cat. No. 04CH37553C), 2004:238-241.
