Properties of cat mutually pumped phase conjugation and two-wave mixing gain in doped KNSBN 被引量：1

Properties of cat mutually pumped phase conjugation and two-wave mixing gain in doped KNSBN

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摘要 Cat mutually pumped phase conjugation configuration is discovered and investigated by using two-wave mixing in (KyNa1-y)2z(SrxBa1-x)1-zNb2O6 (KNSBN) crystal. When only one signal or pumped beam does not give birth to phase conjugation, the maximum reflectivity of signal and pumped beam attain 140% and 30% due to two-wave mixing, respectively. The experimental results show that the two-wave mixing can reduce the threshold of incident beams power, extend the incident angle range, and shorten response rate in the process of self-pumped phase conjugator (SPPC) in KNSBN crystal. Cat mutually pumped phase conjugation configuration is discovered and investigated by using two-wave mixing in (KyNa1-y)2z(SrxBa1-x)1-zNb2O6 (KNSBN) crystal. When only one signal or pumped beam does not give birth to phase conjugation, the maximum reflectivity of signal and pumped beam attain 140% and 30% due to two-wave mixing, respectively. The experimental results show that the two-wave mixing can reduce the threshold of incident beams power, extend the incident angle range, and shorten response rate in the process of self-pumped phase conjugator (SPPC) in KNSBN crystal.

作者许心光邵宗书王正平刘均海许贵宝胡大伟

机构地区 State Key Laboratory of Crystal Materials

出处《Chinese Optics Letters》 SCIE EI CAS CSCD 2003年第8期482-484,共3页 中国光学快报（英文版）

基金 This work was supported by a grant from the Key Re-search Project No.2 in the Climbing Program from the State Science and Technology Commission of China, and partially supported by the Young National Science Foun-ation of shandong University.

关键词 Optical beam splitters Optical systems PHOTODETECTORS Photorefractive materials Optical beam splitters Optical systems Photodetectors Photorefractive materials

分类号 O437 [机械工程—光学工程]

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Chinese Optics Letters

2003年第8期

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Properties of cat mutually pumped phase conjugation and two-wave mixing gain in doped KNSBN 被引量：1

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