高功率孪生光束的产生与测量

讨论了一种用于运行于阈值以上的光学参量振荡器所产生的高功率孪生光束的测量方案。理论上讨论了分束器在高功率强度噪声测量中的作用,证明了分束器的引入并不影响强度量子关联的测量。并在实验上给出了高功率孪生光束的测量结果。     

基于瑞利-索墨菲积分的大角度激光分束器设计

针对目前激光分束器只能产生小发散角的问题,基于严格的非傍轴近似的衍射积分公式,提出了一种大发散角分束器的设计方法.先对目标光场分布进行坐标和光强修整,再利用改进的GerchbergSaxton迭代算法得到所需分束器的相位分布.分别采用本文设计方法和原有方法设计了发散全角为40°×40°的5×5分束器,仿真和实验结果表明:原有方法设计得到的5×5子光束存在着显著的枕形畸变,并且光强分布不均匀.而本文方法设计得到的子光束呈均匀等间隔排列,并且强度分布更为均匀.     

双层矩形位相光栅的分束特性

对由两矩形位相光栅构成的双层体积全息光栅的分束特性进行了优化设计，获得了扇出光束数分别为２，３和５，总衍射效率高于８９％，光强分布不均匀性小于５％的分束器。     

基于非球面透镜的光分束器设计

 针对目前532 nm波长光的分束技术在光电测控系统（如激光干涉测速）等领域的广泛应用,提出一种光分束器的设计方法,此分束器可将光纤入射的532 nm绿光分成接近等比的多束光（包括一分二、一分三、一分四）。此系统首先用非球面透镜将光纤入射的光束准直,再通过分光片分光后用同样的透镜将光束耦合进光纤,达到了77%的通光效率,附加损耗约1 dB。详细介绍了非球面透镜的设计、分束器的结构、装配及其实验结果,并对实验结果以及研制过程中影响分束器效率的各种因素进行分析。     

一种新型的二元光学器件——多位相光束分束器的制作

本文报道了用于多光束分束器的反射式16位相值二元光学器件的制作。该二元光学器件把一束光束分成5×5光束阵列。测量的衍射效率为76.16%,接近理论设计值79.68%。该二元光学器件的有效孔径为10mm×10mm。     

基于碲酸盐的新型单芯光子晶体光纤偏振分束器

提出了一种基于ZnTe碲酸盐玻璃的单芯光子晶体光纤偏振分束器.在外侧包层纤芯对称位置引入缺陷孔,使缺陷模和纤芯基模发生耦合以实现光束分离.采用全矢量有限元法对所提出的单芯光子晶体光纤偏振分束器的特性进行研究,结果表明:该分束器可以实现1.3μm和1.55μm波长光的分离,并使光束沿X和Y偏振方向同时传播;当光纤长度为15mm时,1.3μm和1.55μm处的串扰值分别低至-45.1dB和-40.2dB,小于-20dB的带宽分别为44.2nm和67.1nm;在传输波长1.3μm和1.55μm处的损耗值为0.063dB和0.048dB;偏振分束器在具有低串扰值的同时,具有较低的限制损耗.     

基于圆柱型硅光子晶体的1×2光下路分束器(英文)

本文设计了一个基于圆柱型硅光子晶体自准直环形腔的1×2光下路分束器.该光下路分束器由三个分光镜和一个反射镜构成,其中窄光束依赖自准直效应进行传输.利用多光束干涉理论分析了光下路分束器中不同出口的理论透射谱,并且利用时域有限差分法对光下路分束器透射谱进行数值模拟计算,其结果与理论预测基本一致.当下路波长为1 550nm时,光下路分束器的自由光谱范围约为30nm,几乎涵盖了整个光通信C波段.由于其小尺寸和全硅材料,本文设计的1×2光下路分束器有望应用于未来的集成光路中.     

基于多光束干涉的长程轮廓仪

为提高长程轮廓仪(LTP)面型检测的精度,提出一种使用波面型等光程多光束分束器的LTP。该分束结构可将入射光束分成若干束等光强等光程的相干光。在理论上分析计算了傅里叶变换(FT)透镜焦平面上干涉条纹的位置和强度分布,探究了零级干涉主极大条纹宽度、振幅和±1级干涉主极大条纹振幅与多光束分束器各结构参数之间的关系。通过选取合适的参数设计了基于多光束干涉原理的新型分束器,并与传统分束器进行了仿真实验比较,设计了测量系统中的准直镜和FT透镜,在Zemax软件中建立了完整的光学系统模型,并对该模型进行了实验验证。结果表明多光束干涉长程轮廓仪可以实现对被测表面斜率的测量,其在探测面上的干涉条纹宽度比传统双光束干涉窄,光强也更加集中,可以提高LTP的测量精度。     

编码非相干光源光栅干涉仪

利用光栅进行相衬观察位相物体，光栅作为分束器获得双光束，将双光束干涉条纹调制在位相连续变化的物体上可以支位相物体的折射率进行定量测量。采用编码非相干光源抑制相干噪音，使输出图像更为清晰。     

基于圆柱型硅光子晶体的1×2光下路分束器

本文设计了一个基于圆柱型硅光子晶体自准直环形腔的1×2光下路分束器.该光下路分束器由三个分光镜和一个反射镜构成,其中窄光束依赖自准直效应进行传输.利用多光束干涉理论分析了光下路分束器中不同出口的理论透射谱,并且利用时域有限差分法对光下路分束器透射谱进行数值模拟计算,其结果与理论预测基本一致.当下路波长为1 550 nm时,光下路分束器的自由光谱范围约为30 nm,几乎涵盖了整个光通信C波段.由于其小尺寸和全硅材料,本文设计的1×2光下路分束器有望应用于未来的集成光路中.     

Analysis of sound attenuation in a duct with a solid or porous splitter

The equivalent singularity method is developed for the analysis of sound propagation in a duct with a thin solid or point-reacting porous splitter of a finite streamwise length. The method consists in representing the splitter by a singular plane of pressure dipoles and mass sources, distributions of which are determined so that the boundary condition at the splitter surfaces is satisfied. The boundary condition is expressed in terms of two admittance parameters giving relations between pressures and normal displacements of fluid particles at the upper and lower surfaces of the splitter. Computed results are presented to illustrate the dependence of the sound power transmitted through the splitter section on the acoustic properties, length and location of the splitter and the flow Mach number. A principal cause of the sound attenuation due to a splitter is found to be the conversion of the acoustic energy into the wake vortex energy convected downstream. A solid splitter or a porous splitter of small admittance shows tuning effects—with a peak or multiple peaks in the attenuation spectrum. The tuning frequencies can be controlled by the splitter location.     

Tunable multi-function broadband splitter with optical bistability based on surface plasmon

A tunable multi-function broadband splitter consisted of a silver film, Kerr medium and a silver grating sandwiched between linear dielectrics waveguides is proposed and numerically investigated. This splitter can realize the functions of the beam splitter, the polarization splitter and wavelength beam splitter. This surface plasmon based device provides a unique approach for polarization sensitive manipulation of light in an integrated circuit and will be essential for future classical and quantum information processes.     

Compact design of 1×16 cascaded Y-branch splitter

We proposed a new kind of cascade Y-branch splitter with a branching region and a fan-out region.The length of the new device are analyzed in detail and compared with ordinary ones.The results show that the new splitter can be 10%-30% shorter than the ordinary splitters.We designed and fabricated a 1× 16 splitter in K+/Na+ ion-exchanged BK7 glass.The length of the new designed splitter is 30-mm,which is 85% of the length of an ordinary splitter.     

新型1×N多模干涉分束器的三维设计与模拟

相比于传统的1×N对称型多模干涉（Mult-Mode Interference,MMI）分束器设计,提出了一种新型埋入式弱限制光波导分束器件.它的干涉区及输入输出波导采用倒锥形式,器件尺寸减小,且不均匀性与附加损耗也减小.以1×4的对称型MMI分束器为例,当只对干涉区采用倒锥形结构后,在TE偏振中心波长为1.55 μm时,器件长度减小了500 μm,均匀性增加了0.131 dB,而附加损耗仅增加了0.02 dB,波长响应较传统设计增加了40 nm.在此基础上,又在输入输出臂上也各增加倒锥形结构后,相比于传统设计附加损耗减小了0.02 dB,均匀性增加了0.139 dB,器件长度减小了500 μm.改进后的器件具有优越的容差性.器件采用掺氟型聚合物材料进行优化设计,通过在合理范围内偏离输出波导位置,使输出光强达到最大值.     

A planar waveguide beam splitter

A 50:50 beam splitter for the light and matter waves based on a planar waveguide is studied. The light version of such a beam splitter is demonstrated experimentally. Applications of such a beam splitter in atom optics, interferometry and lithography are discussed.     

Design of a new kind of polarization splitter based on transformation optics

A scheme for a new two-dimensional polarization splitter is proposed based on the transformation optics. When a beam of arbitrary polarization illuminates upon the proposed polarization splitter, the TE (or TM) component is deflected whereas the TM (or TE) component propagates with no deflection. Moreover, the emerging propagation direction of the deflected component can be adjusted by rotating the polarization splitter. The simulation results demonstrated the feasibility and the flexibility of the polarization splitter. Design details and full-wave simulation results are provided.     

基于软光刻的高聚物多模光功率分配器

设计并制作了一种紧凑型高聚物光功率分配器,该器件长度比传统器件结构缩短近1/3,实现了器件的微型化改进.利用设计仿真工具BeamProp对器件所需参量进行详细的筛选分析,最终确定了器件结构的具体数值.采用极具优势的软光刻技术印制成功高聚物1×8光功率分配器,在实际的测量中所得损耗结果与模拟仿真符合较好.该器件很大程度上迎合了通信器件微型化的发展趋势,且所采用的制作工艺具有加工便捷,成型快速,成本低廉等独特优势,使器件的规模生产成为可能.     

Design of a polarization splitter for an ultra-broadband dual-core photonic crystal fiber

A novel ultra-broadband polarization splitter based on a dual-core photonic crystal fiber (DC-PCF) is designed. The full-vector finite element method and coupled-mode theory are employed to investigate the characteristics of the polarization splitter. According to the numerical results, a graphene-filled layer not only broadens the working bandwidth but also reduces the size of the polarization splitter. Furthermore, the fluorine-doped region and the germanium-doped region can broaden the bandwidth. Also, the 4.78 mm long polarization splitter can achieve an extinction ratio of -98.6 dB at a wavelength of 1550 nm. When extinction ratio is less than -20 dB, the range of the wavelength is 1027 nm-1723 nm with a bandwidth of 696 nm. Overall, the polarization splitter can be applied to all-optical network communication systems in the infrared and near-infrared wavelength range.     

单光分束器的量子变换算符研究

针对理想情况下单光分束器,得到了其对应的变换矩阵.用相干态表象和有序算符内积分技术,给出其对应的幺正变换算符.纠缠态的实验制备方案,说明单光分束器在量子信息源研究中具有十分重要的作用.     

计及几何参数变化的离心压气机特性分析

本文采用CFD软件对微型燃机的离心叶轮进行数值模拟,讨论了叶片数及分流叶片位置对叶轮性能的影响,并进行了流场分析。在本文研究的情况中,叶片数增加使得性能曲线左移,单个叶片载荷减小,损失增加,叶轮效率下降, 但是增压效果得到改善。分流叶片位置靠近主叶片压力面时,性能曲线右移,流通能力提高,同时会使分流叶片的载荷增大,当分流叶片靠近主叶片压力面时,则情况相反。