Guo Kaizhou, L A Trinogga, Yang Rongsheng. EXPERIMENTAL STUDY OF AN OPTICALLY CONTROLLED DIELECTRIC RESONATOR OSCILLATOR[J]. Journal of Electronics & Information Technology, 1994, 16(1): 86-90.
Citation:
Guo Kaizhou, L A Trinogga, Yang Rongsheng. EXPERIMENTAL STUDY OF AN OPTICALLY CONTROLLED DIELECTRIC RESONATOR OSCILLATOR[J]. Journal of Electronics & Information Technology, 1994, 16(1): 86-90.
Guo Kaizhou, L A Trinogga, Yang Rongsheng. EXPERIMENTAL STUDY OF AN OPTICALLY CONTROLLED DIELECTRIC RESONATOR OSCILLATOR[J]. Journal of Electronics & Information Technology, 1994, 16(1): 86-90.
Citation:
Guo Kaizhou, L A Trinogga, Yang Rongsheng. EXPERIMENTAL STUDY OF AN OPTICALLY CONTROLLED DIELECTRIC RESONATOR OSCILLATOR[J]. Journal of Electronics & Information Technology, 1994, 16(1): 86-90.
Some new experimental results of optically controlled dielectric resonators (DRO) are presented. A very stable X-band DRO was found to be optically tunable up to 17.5MHz with modulation rate of 1.17MHz/mW with red light illumination. And an even higher modulation rate of 2.24MHz/mW with illumination of violet light was obtained. Instead of a drop in optically controlled DRO output power, a little rise of output power was achieved.
Esman R D, et al. IEEE Trans. on MTT, 1989. MTT-37(0):1512-1518.[2]Herczfeld P R, et al. Proc. 14th European Microwave Conf. Liege. Belgium, Sept. 1984, 268-273.[3][3][4]Herczfeld P R, et al. Optically Controlled Microwave Devices and Circuits, 1985 IEEE MTT-S Digest, H-15, 211-214.[5]Herezfeld P R, et al, RCA Rev.,1985, 46(12): 528-551.[6]Xu Deming, et al. A New Method for Analysing the Optically Controlled Dielectric Resonators. Proc. Europ. Microwave Gnnf. hadapest, Hangary. Sept. 1990, 1609-1611.[7]郭开周,等.电子科学学刊,1991, 13(5): 532-537.
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