Abstract
A new measuring method and device were proposed in this paper. It is about the cavity bubble system temperature control factor. It provides reference for research workers in this field. The method is applied in the passive atomic clocks technology, especially the integration filter resonance absorption cavity system temperature control technology.
Publisher
Trans Tech Publications, Ltd.
Reference5 articles.
1. R. Rajagopal,J. Mona D.P. Londhe R.S. Joshee, Microwave assisted low temperature rapid synthesis of manganite system using La0. 67Ce0. 03Sr0. 3MnO3 mini-cavity furnace, Materials Letters, 2008 v 62, n 2, pp.191-193.
2. B.F. Draayer, J.N. Dahiya, A computer control system to regulate the temperature of a microwave cavity, Advances in Physics, Electronics and Signal Processing Applications, 2000, pp.225-229.
3. H.F. Huang, Temperature control in a microwave resonant cavity system for rapid heating of nylon monofilament, Journal of Microwave Power, 2009, v 11, n 4, pp.305-313.
4. H. b. Chen, Y.X. Liu, L.S. Gao, A study on the frequency-temperature coefficient of a microwave cavity in a passive hydrogen maser, Metrologia, 2012, v 49, n 6, pp.816-820.
5. S.G. Soldatov, T.S. Kayser, Microwave cavity perturbation technique for high-temperature dielectric measurements, IEEE MTT-S International Microwave Symposium Digest, 2013, pp.445-449.