基于体全息光栅的光学相控阵放大级设计

为了扩展光学相控阵的角度扫描范围,设计了基于体全息光栅的放大级,研究了光栅结构参数及其制作误差对性能的影响规律,提出了容差优化方法。研究结果表明:光栅厚度和折射率调制度是影响衍射效率的主要参数,光栅周期和光栅厚度是影响角度选择性的主要参数。光栅出入射角由光栅周期和光栅矢量倾斜角决定,在保持角放大率不变时,可以通过在出入射面内旋转介质调节这两个参数。实际制作中,光栅周期误差和光栅矢量倾斜角误差会导致衍射角偏离设计值,读出光波长越长,光栅周期误差的影响越小;光栅后面介质折射率越高,光栅矢量倾斜角误差影响越小。增加光栅厚度设计值可以减小光栅厚度误差对衍射效率的影响,而减小光栅厚度设计值可以减小折射率调制度误差对衍射效率的影响,实际制备时,需结合系统需求进行综合设计。     

一种基于斜光栅辅助的非对称耦合器型光分插复用器

提出了一种基于斜光栅辅助的非对称耦合器型光分插复用器。运用复合波导的三维正交模式,对器件的三种可能的结构进行了理论分析,选出粗波导光栅型结构。利用耦合模理论,模拟了斜光栅的耦合特性并对其倾斜角进行优化设计。通过回波峰值设计法,将器件的工作波长放在波分复用信道之内,回波峰值波长放在波分复用信道之外,使得器件的性能大有提高。模拟结果表明器件的串扰可达到-30 dB,回波损耗可达到-25 dB。同时,器件的关键工艺容差较大,易于批量化生产。当斜光栅的倾斜角度在2.5°到4.5°之间时,器件的串扰低于-28 dB,回波损耗低于-22 dB。     

基于多路复用体全息光栅的角度放大器设计

为设计基于多路复用体全息光栅的角度放大器, 建立了多路复用角度放大器(MAM)模型, 从效率均衡性和角度分布均匀性两个方面归纳了其设计规则; 研究了光刻过程中的误差对MAM性能的影响; 分析了实际发散光束对MAM性能的影响. 研究表明:控制光栅空间频率和光栅倾斜角可以实现需要的MAM角度分布, 控制光栅厚度和折射率调制深度可以实现MAM最佳衍射效率; MAM最大复用路数不超过10路; 增大光栅倾角或者记录光与工作光波长之比有利于抑制参考光角度误差带来的MAM出射角分布误差, 减小光栅厚度有利于抑制厚度误差     

基于多路复用体全息光栅的角度放大器设计

为设计基于多路复用体全息光栅的角度放大器, 建立了多路复用角度放大器(MAM)模型, 从效率均衡性和角度分布均匀性两个方面归纳了其设计规则; 研究了光刻过程中的误差对MAM性能的影响; 分析了实际发散光束对MAM性能的影响. 研究表明:控制光栅空间频率和光栅倾斜角可以实现需要的MAM角度分布, 控制光栅厚度和折射率调制深度可以实现MAM最佳衍射效率; MAM最大复用路数不超过10路; 增大光栅倾角或者记录光与工作光波长之比有利于抑制参考光角度误差带来的MAM出射角分布误差, 减小光栅厚度有利于抑制厚度误差与折射率调制深度误差对衍射效率的影响; 当远场发散角大于光栅角半宽时, 最佳衍射效率下降到50%以下且角度选择曲线失去局部最小值; 增大空间频率或者光栅厚度可以减小所需的折射率调制深度, 增多MAM可复用路数, 但是不利于效率均衡性设计和抑制发散光束的影响.     

低偏振相关损耗全息光栅波分复用器的设计

对基于掺杂铌酸锂材料的体光栅波分复用器主要结构和光栅记录参量提出了一种优化设计方法.采用严格耦合波理论,对两种偏振不同入射角和不同记录晶体厚度下的器件关键性能参量,如插入损耗和偏振相关损耗等进行了优化.数值结果证明采用优化设计的晶体厚度和光栅记录时的入射角,在获得相当低的偏振相关损耗的同时,也能够获得较低的插入损耗,实现了综合性能优化的波分复用器设计.实验结果证明用优化设计的参量能有效降低波分复用器件的插入损耗和偏振相关损耗.     

体全息存储分维复用串扰噪声分析

基于耦合波理论并引入波矢簇的概念 ,对体全息存储分维复用的串扰噪声进行了分析。在改变参考光俯仰及偏转角度条件下对全息图的读出图像进行了模拟计算 ,给出了实验结果 ,计算得到了二维串扰强度分布。理论及实验证明 ,在改变读出参考光俯仰角的情况下 ,谱面全息图呈现水平带状读出 ,并且带状图样随偏转角改变而上下移动     

一种通带平坦的粗波分复用/解复用器件的研制

随着粗波分复用(CWDM)系统在城域网和接入网中日益广泛的应用,人们对粗波分复用／解复用器的研究也逐渐展开。报道了一种8通道波长间隔为20nm的粗复用／解复用器。该器件基于阵列波导光栅(AWG)原理设计,利用平面光波导技术(PLC)制作,采用多模干涉输入结构和“S”形阵列波导结构,实现了较宽的通带宽度和较低的串扰。实验测得1dB带宽大于10nm,相邻串扰大于24dB,非相邻串扰大于32dB。介绍了其设计原理和制作过程,给出了光束传播法(BPM)数值模拟结果,并和实验结果进行了对比。     

波前相位编码体光栅选择性衍射的理论分析

阐述了波前相位复用技术记录和再现体全息光栅的原理；运用波耦合理论，从衍射波的一阶微分方程推导出多重体光栅对随机波前相位的选择性衍射；构造了一个复随机过程函数，并利用其相关函数得到了随机波前相位编码体光栅实现无串扰再现的充分必要条件；给出了理论上分析多重体光栅对随机波前相位选择性衍射的一种方法.     

金纳米颗粒掺杂光致聚合物的体全息混合光栅模型

金纳米颗粒掺杂光致聚合物在全息曝光过程中,光产物周期分布会形成折射率调制相位型主光栅,同时金纳米颗粒周期分布形成由局域表面等离子体共振引起强吸收的振幅型辅助光栅。研究基于耦合波理论的一种混合光栅模型,分析了光栅的体全息光学特性。结果表明,混合光栅中的折射率光栅和吸收光栅都能够提升体光栅的衍射效率; 体光栅的角度选择性也可以得到明显的改善。     

自由空间微闪耀光栅解复用器

波分复用/解复用器件在光纤通信中具有重要的应用。设计了一种自由空间的微闪耀光栅解复用器,通过对其衍射光场的复振幅分布的研究,得到了满足1级闪耀输出的光栅方程,实现了复合波长信号光在空间上的解复用。通过对微闪耀光栅解复用器的衍射效率和串扰进行分析后表明,微闪耀光栅解复用器具有很高的衍射效率,信号间串扰非常小,而且元件尺寸小,结构紧凑,集成度高,在光通信和光信息处理中具有一定的应用价值。     

Generation of femtosecond dual pulses by a transverse standing wave in a volume holographic grating

Based on Kogelnik's coupled-wave theory, it is found that when a femtosecond pulse is incident on a transmitted volume holographic grating, two transverse standing waves along the grating vector direction will be generated inside the volume holographic grating(VHG). Due to field localization of two standing waves, they have two different velocities along the propagation depth. On the output plane of the VHG, femtosecond dual pulses are generated in both the diffracted and transmitted directions. Results show that the pulse interval is determined by the refractive index modulation and thickness of the grating, while the waveform of the dual pulses is independent of the grating parameters.     

Generation of femtosecond double pulse by adjusting the refractive index modulation of volume holographic grating

Based on the modified Kogelnik’s coupled-wave theory, expressions of diffraction field distribution of volume holographic grating (VHG) are derived when it is illuminated by an ultrashort pulse. It is found that the diffracted pulse is involved into two pulses, and the two-pulse interval is found to be proportional to the refractive index modulation of the VHG. Moreover, the emergence of double pulses is periodic. An overmodulation effect of refractive index modulation of transmitted VHG is used to explain this particular diffraction behavior of the VHG. Results of our study provide a feasible method to generate interval adjustable double pulse with a simple system.     

Guided-mode resonant Brewster filter consisting of two homogenous layers and a single grating with an equal refractive index

In this paper,a new type of resonant Brewster filter(RBF) consisting of two homogenous layers and a single grating with an equal refractive index is presented.The properties are studied by using the plane waveguide method(PWM) and rigorous coupled-wave analysis(RCWA).It is found that the variation of the grating thickness does not effectively change the position of the resonant wavelength,however it has a remarkable effect on the line width,and the resonant peak can be adjusted back to its original position by slightly tuning the grating period.Moreover,by simultaneously tuning the thicknesses of the homogeneous layers above and beneath the grating structure,multiple channels can also be obtained when the RBF is illuminated at the Brewster angle calculated with the effective medium theory(EMT) of subwavelength grating.The adjacent optical thickness for acquiring the multiple channels is about three-quarters of the resonant wavelength.Furthermore,it is demonstrated that the line width at the operating resonant wavelength can be appreciably narrowed by tuning the thickness of the homogenous layer to its corresponding thickness without fine tuning the grating period or the thickness.Therefore,it is very useful for designing filters with different line widths at the desired wavelength.In addition,it is shown from our calculations that the symmetrical line feather can be obtained if the total optical thickness for the homogeneous layer meets the special condition.     

Guided-mode resonant Brewster filter consisting of two homogenous layers and a single grating with an equal refractive index

In this paper, a new type of resonant Brewster filter (RBF) consisting of two homogenous layers and a single grating with an equal refractive index is presented. The properties are studied by using the plane waveguide method (PWM) and rigorous coupled-wave analysis (RCWA). It is found that the variation of the grating thickness does not effectively change the position of the resonant wavelength, however it has a remarkable effect on the line width, and the resonant peak can be adjusted back to its original position by slightly tuning the grating period. Moreover, by simultaneously tuning the thicknesses of the homogeneous layers above and beneath the grating structure, multiple channels can also be obtained when the RBF is illuminated at the Brewster angle calculated with the effective medium theory (EMT) of subwavelength grating. The adjacent optical thickness for acquiring the multiple channels is about three-quarters of the resonant wavelength. Furthermore, it is demonstrated that the line width at the operating resonant wavelength can be appreciably narrowed by tuning the thickness of the homogenous layer to its corresponding thickness without fine tuning the grating period or the thickness. Therefore, it is very useful for designing filters with different line widths at the desired wavelength. In addition, it is shown from our calculations that the symmetrical line feather can be obtained if the total optical thickness for the homogeneous layer meets the special condition.     

二元矩形金属光栅衍射增强电磁理论

采用耦合波原理计算了TM波经过二元纳米量级金属光栅衍射的电磁场，研究了金属光栅的占空比、光栅深度及TM波入射角对衍射后的光栅表面电磁场的增强的影响，针对金属金、银做了探讨和分析，得出重要的结论. 关键词： 耦合波原理 金属光栅 衍射     

基于光热敏折变玻璃的透射型体布拉格光栅角度选择性研究

采用Kogelnik耦合波理论讨论了透射型体布拉格光栅(TVBG)的角度选择特性;结合分波面双光束干涉法和两步热处理法在光热敏折变玻璃中制备了周期为1 μm的TVBG,TVBG相对衍射效率可达91.1%;利用发散光束研究了TVBG的角度选择特性,验证了TVBG具有良好的角度选择特性,可以应用于角选择滤波,抑制中高频调制,提高激光的近场均匀性。     

体积相位全息光栅的设计与制备

本文指出全息干版薄膜在曝光后处理过程中的收缩性和折射率变化对制备全息光栅的周期、倾斜度、布喇格入射角及衍射角的影响问题,并根据实验数据对光栅设计进行修正,再结合Kogelnik衍射方程及折射率调制度和曝光量的线性关系,在实验中基本上能准确设计出指定周期、倾斜度和衍射效率的全息光栅。     

埋入式光栅双通道特性及其应用研究

利用严格耦合波理论分析了埋入式光栅在45°入射时,垂直和平行于光栅栅线的两个不同观察平面的零级共振反射衍射特性.在垂直于光栅栅线的平面内,TE、TM偏振下零级反射共振波长分别为432 am和420 am,在平行于光栅栅线的平面内,TE、TM偏振下零级反射共振主峰波长分别为623 nm和620 nm,在两个平面内,零级共振衍射光的共振波长差别较大,观察到的衍射光颜色差别明显,定义为双通道特性并用实验进行证明,制作了相应的光变色器件.