排序方式: 共有61条查询结果,搜索用时 31 毫秒
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利用低频光通信波段真空压缩态光场可实现基于光纤的量子精密测量.本文利用简并光学参量振荡器实验制备出1550 nm低频真空压缩态光场.在分析频段10—500 kHz范围内压缩态光场的压缩度均达3 dB.用实验制备的1550 nm真空压缩态光场填补光纤马赫-曾德尔干涉仪的真空通道,实现了量子增强型光纤马赫-曾德尔干涉仪,完成了突破标准量子极限的相位调制频率为500 kHz的低频信号测量.与光纤马赫-曾德尔干涉仪相比,测量信噪比提高了2 dB. 相似文献
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Low noise, continuous-wave single-frequency 1.5-μm laser generated by a singly resonant optical parametric oscillator 下载免费PDF全文
We report a low noise continuous-wave (CW) single-frequency 1.5-μm laser source obtained by a singly resonant optical parametric oscillator (SRO) based on periodically poled lithium niobate (PPLN). The SRO was pumped by a CW single-frequency Nd:YVO4 laser at 1.06 μm. The 1.02 W of CW single-frequency signal laser at 1.5 μm was obtained at pump power of 6 W. At the output power of around 0.75 W, the power stability was better than ±1.5% and no mode-hopping was observed in 30 min and frequency stability was better than 8.5 MHz in 1 min. The signal wavelength could be tuned from 1.57 to 1.59 μm by varying the PPLN temperature. The 1.5-μm laser exhibits low noise characteristics, the intensity noise of the laser reaches the shot noise limit (SNL) at an analysis frequency of 4 MHz and the phase noise is less than 1 dB above the SNL at analysis frequencies above 10 MHz. 相似文献
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设计并实现了473 nm和946 nm双波长输出的全固态Nd:YAG激光器.利用激光二极管端面泵浦Nd:YAG晶体,在三镜折叠谐振腔中插入Brewster窗片作为起偏器,通过周期极化晶体PPKTP内腔倍频获得473 nm蓝光输出.同时利用Nd:YAG激光晶体的热退偏效应,把Brewster窗片作为基频光输出耦合镜,实现946 nm激光输出.通过调谐PPKTP的温度,优化了倍频光和基频光的输出功率.泵浦功率25W时,实验获得了1.8W的473 nm倍频蓝光和0.8W的946 nm基频激光输出. 相似文献
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1.5 μm光通信波段非经典光场在光纤中有着极低的传输损耗, 因而是基于光纤的实用化连续变量量子信息研究的重要资源. 本文利用周期极化磷酸氧钛晶体构成的半整块结构简并光学参量放大器, 实验获得了连续变量1.5 μm光通信波段的明亮压缩态光场. 光学参量放大器的阈值功率为230 mW. 当780 nm抽运光场功率为110 mW, 1.5 μm注入信号光场功率为3 mW时, 连续变量1.5 μm明亮正交位相压缩态光场的压缩度达4.7 dB. 进而利用时域零拍探测系统测量压缩态, 采用量子层析技术重构了该明亮正交位相压缩态光场的Wigner准概率分布函数. 相似文献
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用激光二极管(LD)抽运Nd YAG晶体,采用四镜环行腔,腔内放置TGG晶体和λ/2波片,组成光学单向器,利用LBO晶体内腔倍频技术,实现单频946 nm红外光和473 nm蓝光输出.最大单频蓝光输出12 mW,红外光输出13 mW,光束x方向的M2为1.02,Y方向的M2为1.14.腰斑的不对称性为1.062.自由运转情况下,功率波动小于±1.5%,频率稳定性优于±5.4 MHz. 相似文献
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ASYMMETRIC CONTROL CHARACTERISTICS OF DYE BDN ON THE TWO TRAVELLING WAVES IN A RING YAG LASER 下载免费PDF全文
It is discovered experimentally that, when placing a plate of dye BDN in a ring YAG laser cavity, the dye shows asymmetric control actions on the clockwise and counter-clockwise travelling waves. Unidirectional dye Q-switched operation is realized in a ring cavity based on this property without the use of Faraday rotator, polarizer and half-wave plate. A simplified theoretical analysis of this phenomenon is presented. 相似文献
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