Performance optimization of a SERF atomic magnetometer based on flat-top light beam

We explore the impact of pumping beams with different transverse intensity profiles on the performance of the spinexchange relaxation-free(SERF) atomic magnetometers(AMs). We conduct experiments comparing the traditional Gaussian optically-pumped AM with that utilizing the flat-top optically-pumped(FTOP) method. Our findings reveal that the FTOP-based approach outperforms the conventional method, exhibiting a larger response, a narrower magnetic resonance linewidth, and a superior low-frequency noise performance. Specifically, the use of FTOP method leads to a 16% enhancement in average sensitivity within 1 Hz–30 Hz frequency range. Our research emphasizes the significance of achieving transverse polarization uniformity in AMs, providing insights for future optimization efforts and sensitivity improvements in miniaturized magnetometers.

一种改进的Flat-top窗电力系统谐波分析算法

快速傅里叶变换(Fast Fourier Transform,FFT)是电力系统的谐波分析最常用、最容易实现的方法。但由于实际电网频率波动,FFT算法很难实现同步采样,谐波分析精度受到频谱泄漏与栅栏效应的制约。分析了Flat-top窗的旁瓣特性,建立了一种改进的加Flat-top窗FFT算法。通过分段校正方法,当频率偏移量小时,使用计算量小的加Flat-top窗FFT算法;当频率偏移量大时,利用相位差校正法对幅值进行插值修正。仿真结果表明:改进的Flat-top窗相位差校正法有效地抑制频谱泄漏和栅栏效应,提高了电力系统谐波参数的计算精度。

All-fibre flat-top comb filter based on high-birefringence photonic crystal fibre loop mirror

A novel all-fibre flat-top comb filter based on a high birefringence photonic crystal fibre loop mirror is proposed and demonstrated. We simulate theoretically its output spectra and experimentally realize a flat-top output with a high extinction ratio. Compared to filters consisting of the conventional Panda polarization maintaining fibre, filters based on a high birefringence photonic crystal fibre loop mirror have better temperature stability. This kind of filter can be expected to be used widely in Wavelength-division-multiplexing(WDM) systems in the future.

Special Apodized Fiber Bragg Grating for Flat-top Band-pass Reflectivity Filter

The characteristics of special apodized fiber Bragg grating (FBG) in flat-top pass-band as reflectivity filter are presented. This special apodized FBG was designed by the particle swarm optimization algorithm. Compared with conventional apodized FBG, the special apodized FBG presented was more robust in the flat-top pass-band characteristic even if the strength of grating is very week. This technology is very interesting in designing the filter for wavelength division multiplexing system.

digital micromirror device;flat-top beam;orbital angular momentum;perfect vortex beam;random fiber laser

High-intensity vortex beams with tunable topological charges and low coherence are highly demanded in applications such as inertial confinement fusion(ICF) and optical communication. However, traditional optical vortices featuring nonuniform intensity distributions are dramatically restricted in application scenarios that require a high-intensity vortex beam owing to their ineffective amplification resulting from the intensity-dependent nonlinear effect. Here, a low-coherence perfect vortex beam(PVB) with a topological charge as high as 140 is realized based on the super-pixel wavefront-shaping technique. More importantly, a globally adaptive feedback algorithm(GAFA) is proposed to efficiently suppress the original intensity fluctuation and achieve a flat-top PVB with dramatically reduced beam speckle contrast. The GAFA-based flat-top PVB generation method can pave the way for high-intensity vortex beam generation,which is crucial for potential applications in ICF, laser processing, optical communication and optical trapping.

平顶型CLPG-CFBG级联结构中温度应力传感特性的研究

为了使光纤光栅传感器在光纤传感系统的应用中同时具有温度应力双参量传感和通信传输的功能,提出了一种由啁啾长周期光纤光栅(CLPG)和啁啾光纤布喇格光栅(CFBG)组成的平顶型光纤光栅传感器结构。采用测量中心波长位移的方法,建立了传感器温度和应力灵敏度系数矩阵,进行了理论分析和仿真验证。结果表明,CLPG的温度和应力灵敏度大小分别为2660 pm/℃和132 pm/με;CFBG的温度和应力灵敏度大小分别为12.6 pm/℃和0.8 pm/με,且CLPG和CFBG同时都具有平顶输出光谱,平顶光谱带宽分别达到了13.8 nm和5.6 nm,该传感器可以实现温度应力双参量同时传感,具有稳定的通信传输波段。该研究为光纤光栅传感器在光纤传感系统中的应用提供了参考。

基于双电容器耦合和线性补偿的高稳定度平顶脉冲强磁场调控系统分析与设计

平顶脉冲磁场具备脉冲磁场强度高和稳态磁场稳定度高的双重优势,是现代物理科学研究的重要工具。为满足脉冲场核磁共振、I-V测量等科学实验对平顶脉冲磁场高稳定度的需求,该文提出基于双电容器回路耦合放电和线性补偿的平顶磁场调控方案。为此,理论分析双电容器回路耦合放电过程,建立配置主/辅回路电容电压和放电时序的优化方法,基于IGBT有源区的流控特性,设计线性调节补偿回路和前馈反馈相结合的控制器,研制与主磁体解耦的1 T补偿磁体,对双电容器回路耦合放电产生的背景磁场进行高精度调控,最终实现了强度为45.2 T、持续时间为8 ms以及稳定度为0.02%的平顶脉冲磁场,满足相关固态核磁共振等科学实验需求。

多相移间插取样光纤光栅滤波器的设计与优化

【目的】取样光纤布拉格光栅(SFBG)以其梳状滤波特性引起人们的普遍关注,成为光纤光栅技术研究的新热点。显然,设计具有高通道数、平顶和窄带宽的光学滤波器具有重要的工程意义。文章提出了一种插入多相移(MPS)的间插取样光纤布拉格光栅(ISFBG)滤波器。【方法】ISFBG具有大量反射通道,通过插入MPS,可引入多个平顶窄传输通道。通过优化插入ISFBG的两个π相移的位置,首先设计了具有41个传输通道的光学滤波器,该滤波器覆盖C波段,通道间隔为100 GHz,每个传输通道都具有平顶响应,3 dB带宽较窄(<1 GHz),形状因子较小(<3.2)。接着,保持其他结构不变,通过优化插入3个π相移的位置,可在此基础上进一步减小形状因子,从而改善传输通道的矩形形状。通过引入MPS技术,设计了插入3个π相移的ISFBG,可实现通道数目加倍,通道间隔减半。【结果】演示了一种通道数目为81的平顶窄带宽的光学滤波器,该滤波器覆盖C波段,通道间隔为50 GHz,多通道的3 dB带宽为900.5 MHz,形状因子接近2.17。同时讨论了MPS的大小、位置和光纤的等效长度的精度对于实际制造的影响。【结论】所设计的滤波器具有较高通道数,每个通道都具有平顶响应且带宽较窄,符合设计目的。这种滤波器在多波长激光器和多波段微波信号处理系统中具有潜在的应用前景。

基于MEMS可变形反射镜的激光整形研究

应用MEMS可变形反射镜进行激光光束整形技术研究。首先建立平顶光束整形的理论模型,通过近轴透镜聚焦后的光场,利用柯林斯广义衍射积分公式对高斯光束整形模拟仿真,分析不同束腰半径和发散角的高斯光束对整形成平顶光束的影响。设计基于可变形反射镜的平顶光束整形的光路实验,通过平顶光束整形的理论模型和泽尼克多项公式,得到MEMS可变形反射镜各单元的驱动电压参数,实现平顶光束整形光场分布。在基于MEMS可变形反射镜的激光整形研究分析中,利用波前传感器对整形平顶光束进行光斑分析,得到基于可变形反射镜的平顶光束整形实验结果。对实验结果和理论仿真进行对比分析,得到其规律基本一致,结果较为理想。

Production of annular flat-topped vortex beams

A model of an annular fiat-topped vortex beam based on multi-Gaussian superimposition is proposed. We experimentally produce this beam with a computer-generated hologram （CGH） displayed on a spatial light modulator （SLM）. The power of the beam is concentrated on a single-ring structure and has an extremely strong radial intensity gradient. This beam facilitates various applications ranging from Sisyphus atom cooling to micro-particle trapping.

Mid-infrared flat-topped broadband chiral helix metamaterials based on indium tin oxide and their chiral properties

We proposed a periodic mid-infrared broadband chiral structure. Its unit cell consists of four indium tin oxide(ITO) helix subunits with different radii. The simulation results show that the flat-topped broadband circular dichroism(CD) can be achieved in the mid-infrared band by optimizing the parameters of helix structures. The simulation results also show that compared with the metallic(Ag and Au) helix structures, the ITO helix structure proposed exhibits evidently better broadband CD and optical activity, which provides a new idea for the design of broadband polarization state control devices in the mid-infrared band.

A flat-topped etched diffraction grating demultiplexer with low polarization-dependent loss using a tapered MMI structure

A flat-topped etched diffraction grating (EDG) demultiplexer with a low polarization-dependent loss (PDL) is designed. A design and simulation method based on the method of moment (MoM) is proposed. A 65-channcl EDG demultiplexer with channel spacing of 100 GHz is considered as a design example. A tapered multi-mode interferometer (MMI) is used to flatten the passband of the EDG demultiplexer. The numerical results show that the exit width of the tapered waveguide impacts the loss of the TE case more than that of the TM case. Based on this fact, the exit width of the taper is optimized to obtain the lowest PDL. The tapering angle is also optimized where the minimal ripple is obtained. The designed EDG demultiplexer has an excellent flat-topped spectral response and a very low PDL.

高功率微波频率对PIN限幅器的影响分析

通过TCAD器件建模,建立了PIN二极管的电热耦合模型,搭建PIN限幅器HPM耦合仿真电路以进行高功率微波效应仿真。仿真得到了不同频率下PIN限幅器瞬态电压响应以及PIN二极管内部电场、载流子、结温分布。仿真结果表明,在HPM耦合电压作用下,PIN限幅器平顶泄漏负向电压随频率增大而降低,PIN限幅器平顶泄漏正向电压随频率增大而降低。PIN二极管内部PIN限幅器的限幅能力随微波频率增加先增强后减弱。HPM频率较低时PIN二极管内部晶格温度积累集中于I层界面处,随着频率升高,晶格温度积累集中于I层中间位置,因此频率变化会造成PIN限幅器的HPM毁伤敏感位置变化。

基于非球面镜组的大口径激光匀化技术研究

为了优化对大口径激光探测组件灵敏度、角度参数等特性的测量能力,减小因高斯光束光强分布中间强、边缘弱的特点造成的测量值差异,基于小口径非球面镜组光束整形及高倍率扩束技术,设计了大口径均匀激光光束产生装置,提出了基于光强分布、非球面镜非球面度、光线光程差的综合优化整形方法。结果表明,设计的开普勒型非球面整形镜组非球面度小于20μm,工作束宽5 mm,输出平顶光束均匀性为92.8%;设计的40^(×)高质量扩束系统,与非球面镜组相匹配可实现2 m距离内150 mm口径均匀光束,可获得优于94.2%的Ф150 mm大口径均匀光束输出。该研究对激光测量与标定系统的工程化设计是有帮助的。

不同光束类型致铝合金表面漆层损伤形貌研究

漆层的损伤形貌反映了激光与材料相互作用的规律及除漆机理,了解不同光束类型对漆层的损伤特征及作用规律有助于选择激光精准除漆,提高表面处理质量。为探究不同光束类型对漆层材料的作用规律及除漆机理,采用扫描电子显微镜和3D光学表面轮廓仪测量铝合金表面漆层在高斯与平顶激光除漆后,损伤直径、损伤深度及损伤形貌随能量密度的变化。结果表明,在高斯光束作用下,表面漆层损伤区域受到热烧蚀和热振动效应影响,出现漆层剥离、烧蚀去除等现象,损伤凹坑光滑、规则,当能量密度为1237J/cm2时,漆层的损伤直径达到4671μm,深度达到1014μm;在平顶光束作用下,表面漆层损伤区域主要受到热振动效应影响,损伤凹坑呈现出振动剥离去除的形貌,凹坑范围内的漆层剥落不规则,剖面呈“锯齿”状,当能量密度为1237J/cm2时,损伤直径达到6123μm,深度达到1942μm;同等能量密度下,平顶光束剥离漆层量更大。

基于SLM的几何稳相法光束整形影响因素分析

基于几何稳相法求解调制相位,使用傅里叶透镜进行傅里叶变换,在后焦面处聚焦,得到对应的平顶光束,从而将圆形高斯光束整形为方形平顶光束,其中光路参数对整形质量将产生较大影响。实验中发现,方形平顶光束受零级光影响均匀性较差,因此详细分析了零级光产生的原因,提出了有效的解决方法,并对实验结果中出现的零级光通过叠加闪耀光栅直接移除。实验结果表明:移除零级光后方形平顶光束的能量利用率为72.3%,光束均匀性高达97.2%,优于传统整形方法。最后进一步分析了全息图与入射光束偏移量、离焦以及入射光束束腰半径对几何稳相法整形质量的影响,为几何法光束整形的应用提供了便利。

基于余弦平顶窗的谐波相量测量

针对电力系统中带外干扰、频率偏移及其他动态情况下的谐波相量估计问题,提出了一种基于余弦平顶窗的谐波相量估计器。首先基于余弦窗频域表达式,利用理想幅值响应和最小二乘法获得平顶窗的窗系数。在此基础上,为使得滤波器频率响应在标称谐波频率下具有零增益,将所得窗函数与频域采样定理相结合,通过最小二乘法设计一组有限脉冲响应滤波器,用于估计谐波相量。然后,分析了余弦平顶窗和谐波相量测量滤波器的频率响应。最后,采用稳态和动态条件下的不同信号模型对提出的谐波相量估计器进行了性能验证。仿真结果表明,相对于基于Sinc插值函数和频域采样定理的两种谐波相量估计器,所提方法有较强的带外干扰抑制能力,在多种条件下能实现较高精度的谐波相量测量。

基于改进径向基网络的电动舵机滑模控制

针对电动舵机小角度平顶现象引发的弹道抖振问题,以小角度平顶问题为中心,对平顶问题展开研究分析,并提出了一种改进的径向基滑模控制(RBF-SMC)方法,通过设计滑模控制器,削弱摩擦和间隙的不利影响,以提高系统的跟踪精度;针对模型中的不确定项,引入径向基网络进行逼近,提高控制精度,同时降低滑模控制算法的抖振问题;为提高径向基网络的迭代效率,使用2个单参数代替权值矩阵,大幅减少需要迭代估计的参数数量。最后,搭建电动舵机系统实验平台,采用PID控制器和改进的径向基滑模控制器进行对比分析。实验结果表明,相比于传统PID算法,在跟踪0.1°4 Hz正弦指令时,采用改进的径向基滑模控制算法将位置平顶时间从64 ms降低至9 ms,位置跟踪误差从0.123°降低至0.04°;在半物理试验时,弹道抖动频率从14.7 Hz降低至6.8 Hz,抖振幅值从0.079°降低至0.034°。采用改进的径向基滑模控制能有效提高系统的跟踪性能,削弱平顶问题,抑制弹道极限环震荡。

适用于高强度辐射场构建的多模反射面天线

高强度辐射场构建系统是对多种武器进行电磁辐照效应试验的关键装备,其要求在距天线一定距离的区域内产生高强度且尽量均匀分布的电磁场。本文设计了一款适用于该系统的X波段偏置卡塞格伦多模反射面天线。用反射面天线是为了获得尽可能高的增益,使期望区域内的场强尽可能大;用多模反射面理论实现了窄波束的平顶赋形,使期望区域内的场趋于均匀分布,区域外的场迅速减小。实测结果表明天线增益大于29.8 dB,3 dB波束宽度不小于4.6°,在此范围内方向图幅度起伏小于2 dB,平顶特性明显。此外,偏置的反射面天线还有馈源遮挡小、馈线损耗低和易于折叠收藏等优点,可以很好的应用于电磁环境模拟试验设备中。

应用于微波无线能量传输系统的发射波束技术

概述了微波无线能量传输系统的研究现状及其基本原理,从可提高波束能量的一些特殊口径场以及先进的天线技术角度,分别按Whisper波束、超增益天线、平顶波束、聚焦天线技术、非衍射天线进行介绍。最后对微波能量传输系统中发射技术的未来发展趋势进行了展望。