Real-time phase measurement and correction of dynamic multimode beam using a single spatial light modulator

In this Letter,a novel system for adaptively correcting the phase of a dynamic multimode beam is proposed.While using merely one spatial light modulator,the phase measurement of the first-order diffraction pattern and the correction of the zeroth diffraction order are simultaneously realized.The real-time experimental result is obtained at a control rate of 10 Hz.The power-in-the-bucket value is improved from 38.5%to 61.8%,even with fundamental mode content that is consistently below 30%.To the best of our knowledge,this is the first implementation of real-time adaptive correction of the entire multimode beam.     

Coherent Beam Combination of Eight Watt-Level Polarization-Maintained Fiber Amplifiers

We demonstrate the coherent beam combination of eight Watt-level polarization-maintained fiber amplifiers. The phase control signal of each amplifier is generated by running a stochastic parallel gradient descent algorithm on a digital signal processor （DSP）. The experimental result shows that the whole system in close-loop performs well for long-time observation. Energy encircled in the target pinhole is 6.68 times more than that in open-loop. The combination efficiency is as high as 84.5%.     

Multi-wavelength laser active coherent combination

A seed laser oscillating at different frequencies is proved to have the potential to mitigate the stimulated Brillouin scattering(SBS) effect in a fiber amplifier,which may increase the emission power of a coherent beam combination(CBC) system greatly.In this study,a basic mathematical model describing the multi-wavelength CBC is proposed on the fundamentals of CBC.A useful method for estimating the combination effect and analysing the feasibility and the validity of the multi-wavelength coherent combination is provided.In the numerical analysis,accordant results with four-wavelength four-channel CBC experiments are obtained.Through calculations of some examples with certain spectra,the unanticipated excellent combination effect with a few frequencies involved is explained,and the dependence of the combination effect on the variance of the amplifier chain length and the channel number is clarified.     

Coherent beam combination of adaptive fiber laser array with tilt-tip and phase-locking control

We present an experimental study on tilt-tip(TT) and phase-locking(PL) control in a coherent beam combination(CBC) system of adaptive fiber laser array.The TT control is performed using the adaptive fiber-optics collimator(AFOC),and the PL control is realized by the phase modulator(PM).Cascaded and simultaneous controls of TT and PL using stochastic parallel gradient descent(SPGD) algorithm are investigated in this paper.Two-fiber-laser-,four-fiber-laser-,and six-fiber-laser-arrays are employed to study the TT and PL control.In the cascaded control system,only one high-speed CMOS camera is used to collect beam data and a computer is used as the controller.In a simultaneous control system one high-speed CMOS camera and one photonic detector(PD) are employed,and a computer and a control circuit based on field programmable gate array(FPGA) are used as the controllers.Experimental results reveal that both cascaded and simultaneous controls of TT using AFOC and PL using PM in fiber laser array are feasible and effective.Cascaded control is more effective in static control situation and simultaneous control can be applied to the dynamic control system directly.The control signals of simultaneous PL and TT disturb each other obviously and TT and PL control may compete with each other,so the control effect is limited.     

二维磁性团簇形貌及其分形维数的数值研究

在扩散限制凝聚（DLA）模型基础上，采用Monte Carlo方法模拟了具有幂次相互作用的磁性粒子动力学凝聚过程．重点研究了在不同幂指数。值下团簇的形貌及其分形维数Df随耦合参数膨的演化规律．模拟结果表明：对于较大的α值，即α=5时，团簇形貌随雕的变化较小，其分形维数Df一般在1．60～1．70；而随着α值的减小，团簇形貌随参数βC有一明显的演化过程，在模拟范围内，分形维数Df在1．20～1．95．     

单端泵浦光纤放大器获得4 kW单模窄谱激光输出

窄谱光纤激光器在光束合成等领域有着广泛的应用,然而模式不稳定效应的出现严重限制着窄谱光纤激光器的功率提升。提出并验证了采用新型981 nm稳波长泵浦方案,能够应用于窄谱激光放大并提升模式不稳定效应阈值,通过采用单端后向泵浦结构,将单模窄谱光纤放大器功率提至4 kW以上。实验中采用白噪声相位调制展宽单频激光作为窄谱种子,主放大级分别采用稳波长976 nm和981 nm两种泵浦源单端后向泵浦。在采用976 nm泵浦源泵浦时,窄谱激光最高放大至3.4 kW,出现典型的模式不稳定效应特征,功率提升受到限制。在采用981 nm泵浦源泵浦时,窄谱激光最高放大至4.05 kW,且并未出现模式不稳定效应,输出光束质量M2因子为1.3,进一步功率提升仅受限于泵浦功率。通过优化激光器设计、结合双向泵浦结构,有望实现更高功率的窄谱光纤激光输出。     

封面说明

采用气相沉积方法在液相基底表面成功制备了一种具有近似自由支撑的新型铁薄膜系统．该薄膜的生长机制服从所谓的二阶段生长模型：沉积铁原子在液相基底表面首先成核并凝聚成准圆形原子团簇；然后这些原子团簇在液体表面做无规扩散和旋转运动，从而形成分枝状凝聚体(上图)，并随着薄膜名义厚度的增加，分枝状凝聚体逐渐相互连接成网状薄膜，     

主动成像系统距离选通实验方案设计

 距离选通技术是克服大气后向散射，提高主动成像系统信噪比的有效方法。分析了距离选通的技术要求，分别使用电源调制和机械调制的方法获得了适合用于主动成像系统脉冲光源,并进行了距离选通实验，机械调制方法适用于大功率连续半导体激光器。使用氙灯泵浦YAG激光器实现了对675 m和1 509 m距离目标的主动成像，详细分析了几种方案的利弊并提出了改进方法。     

大口径光束波前采样器(孔栅)的研制

应用平面波角谱理论，分析了采样器对光波场采样和分光的基本原理以及对空间采样频率的选择规则，描述了实际研制的大口径采样器的结构设计，并通过数值方法和高能激光大气传输实验研究了高能激光经采样器前／后的远场光斑分布关系。结果表明：利用光束波前采样器能高保真地实现对高能激光束的分光。     

PV型HgCdTe光电探测器中的混沌及其诊断

 对激光辐照半导体光电探测器的实验研究，发现当一束不太强的稳定连续波激光照射在PV型HgCdTe光电探测器上时，可以引起探测器出现混沌行为。利用光电探测器的光电压信号随时间变化的实验数据，通过求功率谱、计算Lyapunov指数对混沌进行了诊断。