共查询到18条相似文献,搜索用时 171 毫秒
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采用了并联主振荡-功率放大的相干合成方案,实现了光纤激光器的相干叠加。主振荡的输出光通过保偏光纤分束器分为两路,其中一路加入保偏光纤相位调制器以实现闭环控制,两个保偏光纤放大器分别对两路输出光进行放大,放大后的输出光再由一个2×2的保偏光纤耦合器会聚相干。合成输出光的一部分通过光电转换后进入数据采集卡,采集卡将采集到的数据送入计算机进行实时处理并将得到的反馈信号作用于相位调制器,相位调制器实时控制两路信号的相位差,从而实现整个实验系统的相干合成输出。系统实现闭环控制后,两路光纤放大器的相位差为2π的整数倍,输出光强始终保持最强。该相干合成方案简单易行,性能稳定。 相似文献
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光纤型宽带可调连续波差频产生中红外激光器 总被引:3,自引:0,他引:3
报道一种新型光纤化宽带可调连续波中红外激光器系统,该激光系统采用准相位匹配(QPM)的差频产生(DFG)技术,非线性晶体为多周期的周期性极化掺镁铌酸锂晶体(PPMgLN),掺镱光纤激光器(YDFL)用作抽运光源,可调激光器经掺铒光纤放大器(EDFA)功率提升后作为信号光源。利用建立的准相位匹配-差频产生系统,获得了连续波中红外差频光输出;实验发现,温度导致相位失谐的半峰全宽(FWHM)为4.5℃;通过优化选择晶体周期,并结合调节信号光波长和控制温度,该准相位匹配-差频产生系统可在3.1~3.6μm内连续调谐。 相似文献
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为提高光纤激光器无源自调整相干合成阵列的效率、稳定性和可扩展性,提出了基于公共光纤环形腔耦合与单模光纤滤波的光纤激光器相干合成方案。将多个2×2的光纤耦合器分别插入各单元激光器的谐振腔,利用耦合器余下的端口,两两相连构成公共环形耦合腔。采用单模光纤滤波技术,提高了各输出激光束之间相位锁定的稳定性。利用该方案在实验上实现了三路光纤激光器的被动锁相输出,实验测得的远场干涉光斑、输出功率及光谱均表明该方案适于构建性能较好的光纤激光器相干合成阵列。 相似文献
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在光纤激光相干合成中,需要探测各路光束之间的平移误差.提出了一种条纹提取算法,利用此算法能得到准确的相位平移扰动.基于此算法,针对两路光纤放大器测量了毫瓦量级的光纤放大器的相位噪声特性,然后采用高速数字处理电路以及能动分块反射镜完成了平移相位扰动的实时校正.实验结果表明,闭环前后条纹对比度从0.09提高到0.25,平移误相位噪声强度的幅值从1053.4 nm降低到116.7 nm,系统校正精度达到1/10λ,控制带宽约为50Hz.
关键词:
能动分块反射镜
条纹提取算法
相位扰动
光纤放大器 相似文献
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以七芯光纤激光器为例,提出一种提高多芯光纤激光器总输出光功率中共相位模式所占比例的方法,即把多芯光纤激光器作为种子光源,输出信号光再经过多芯光纤放大器进行放大。基于速率方程组对激光器和放大器中的模式竞争进行了数值分析。计算表明:激光器输出端与放大器输入端之间距离存在一个最佳值,以使得放大器输出信号中低阶模式功率占总输出功率的比例最低,可以下降到小于1%。研究表明:级联放大系统可以有效增强共相位模式同时抑制低阶模式,比传统的塔耳博特腔激光器具有更好的光束质量。 相似文献
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研究了LaB6在1~10 Pa氮气和氦气中的直流和脉冲放电特性以及放电过程对电极的影响。结果表明,电极直径为5 mm的LaB6氦气放电管在脉冲工作状态下可以长期稳定放电。在脉冲电压为2.2 kV、脉冲宽度10 ms、频率13.3 Hz下,脉冲峰值放电电流超过120 A。氦气放电管在放电过程中,阴极表面有离子的清洗和活化作用,可以使电极的表面逸出功降低,提高放电管的发射能力和稳定性。LaB6作为气体放电电极具有寿命长、延迟时间短、放电电流大等优点,可用于重复强流脉冲气体放电的高压高速开关器件。 相似文献
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Yanxing MaXiaolin Wang Pu ZhouBing He Hu XiaoYuhao Xue Chi LiuZhen Li Xiaojun XuJun Zhou Lei SiZejin Liu Yijun Zhao 《Optics and Lasers in Engineering》2011,49(8):1089-1092
We demonstrate coherent beam combination of 137 W fiber amplifier array using single frequency dithering technique. Four polarization-maintained fiber amplifiers are tiled into 2×2 array and the output power of each amplifier is about 35 W. Single frequency dithering algorithm is run on a signal processor based on field programmable gate array (FPGA) for phase control on the fiber amplifiers. When the phase control system goes into closed-loop, the fringe contrast of far-field intensity pattern is improved by more than 87% from 0 in open-loop, and the residual phase error is less than λ/20. 相似文献
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Coherent beam combining enables power scaling beyond the limits of single amplifiers. Therefore, improving the performance and simplicity of coherent combination techniques is of great interest for many high power applications. Here, we show all-fiber coherent beam combining of two ytterbium doped amplifiers with and without a dedicated phase actuator and a total output power up to 25 W. Instead of a dedicated phase actuator, we directly controlled the two ytterbium amplifiers to also stabilize their relative phase. We compared the performance of this method with phase stabilization using two piezo driven fiber stretchers. In both cases, power noise was dominated by the single amplifier. 相似文献
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Xiaolin Wang Yanxing Ma Bing He Yuhao Xue Zhen Li Jun Zhou Yijun Zhao 《Optics Communications》2011,284(8):2198-5536
We demonstrate coherent beam combining of two-dimensional fiber amplifier arrays with a total of 137 W output power using stochastic parallel gradient descent (SPGD) algorithm. Compact all-fiber polarization-maintained single frequency fiber amplifier chains are developed and four fiber amplifiers are arranged to 2 × 2 laser array with a fill factor of 70% in the near-field. Active phase control is implemented by a digital signal processor (DSP) based SPGD controller. The fringe visibility of the coherent combined beam profile is as high as 81% when the system is closed-loop controlled despite perturbations of the environment. 相似文献
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We theoretically analyse the dynamic response of amplifier cascades involving combinations of unclamped and gain-clamped discrete fiber Raman amplifiers (DFRAs) in the worst possible case of power transients. We consider a 64-channel system in which all of the channels except one (i.e. the surviving channel) are modulated to simulate channel add/drop. We vary the number and the position of the gain-clamped DFRAs in the cascade to determine whether a cascade in which only a few amplifiers are gain-clamped (referred to as a mixed cascade) can be as effective as a cascade comprising all gain-clamped amplifiers for controlling the power transients within tolerable limits (for example, 1 dB). We take into account the location of the surviving channel and the operational regime of the amplifiers. Our results show that the location of the gain-clamped DFRAs in a mixed cascade affects the transient characteristics and that it is possible to control the transients within tolerable limits. 相似文献
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To control the phase noise of two ytterbium fiber amplifiers, a coherent combination system based on an active segmented mirror (ASM) has been established in our laboratory. The ASM is controlled by a feed back control loop on the basis of a Peak Rate (PR) algorithm which is realized on a DSP + FPGA hardware control board. Experimental results indicate that when the control loop is off, the far-field interference pattern is blurred and dynamic, while when it is on, the far-field beams interference pattern achieves clear and stable. At two different output powers, the contrasts of the interference stripes are improved from 7% to 19% and 8% to 28% respectively. 相似文献