一种新型偏振无关光交错复用器的设计

设计了信道间隔为50 GHz、纹波小于0.05 dB、0.5 dB带宽大于0.27 nm、20 dB带宽小于0.32nm的新型Gires-Tournois谐振腔式Michelson干涉仪型偏振无关光交错复用器(即Interleaver).该滤波器由两个c-偏振器、两个Gires-Tournois谐振腔和s-光分光棱镜组成.入射光经该干涉系统产生两组等间隔互补条纹,形成了梳状分离谱,通过合理选取Gires-Tournois谐振腔各参量值和Michelson干涉仪两臂长值,可实现不同种类滤波器件,这类Interleaver具有零畸变、宽平坦带宽、高隔离度以及结构简单,易于装调等优点.     

谐振腔侧边1×5介质柱调谐光子晶体滤波器

在正方格二维光子晶体结构中设计了基于可调谐谐振腔的带通滤波器,通过改变1×5谐振腔侧边调谐介质柱位置调节谐振腔与波导系统工作时传输的波段,用CMT理论分析了输入端耦合衰减率及输入端失谐因子对滤波器的影响。借助FDTD方法得到了滤波器波长传输谱,结果表明:当滤波器结构工作于1320~1810 nm波长段时,输出端38个通帯的-3 dB带宽Δλ范围为4.18~11.15 nm,通带峰值波长可调宽度为186.56 nm。该微型滤波器适于光电通信粗波分解复用WDDM系统设计和光集成设计等方面。     

微波频段表面等离子激元波导滤波器的实验研究

基于理论分析, 实验研究了二维磁单负材料/双正材料/磁单负材料表面等离子波导的滤波效应. 研究表明, 该波导结构具有低通滤波性质, 引入分支缺陷之后, 由于谐振效应该波导具有带阻滤波效应. 分支缺陷相当于亚波长谐振腔, 谐振腔的长度决定带阻滤波器的中心频率, 而中心频率几乎不受缺陷位置的影响; 滤波器透射率下降的幅度由耦合距离决定. 通过引入谐振腔及改变谐振腔的长度、数量以及耦合间距等参数, 可以实现可调节的表面等离子波导滤波器. 实验结果与理论分析符合得很好, 该性质将在可调的单通道或多通道带阻滤波器件中具有潜在的应用价值. 关键词： 表面等离子激元 特异材料波导 谐振腔 滤波器     

检测法布里-珀罗滤波器传输时延的谐振腔方法

提出一种谐振腔方案用于测量法布里-珀罗滤波器的光传输时延.将法布里-珀罗滤波器置于谐振腔中,根据谐振腔长与谐振频率的关系,将滤波器的传输延时量转化为谐振基频的减小量进行测量.实验测得谐振基频的变化量为0.167MHz,对应谐振腔长的变化量为3.570m.除去器件的尾纤等包装长度,滤波器的传输延时为1.542m.该方案不依赖于镜面反射系数、精细度等滤波器参数,可顺利测得光信号经过高精细度法布里-珀罗滤波器的传输时延,甚至可实现很小尺寸的滤波器时延测量.通过谱分析法测量得到延时量为1.581m,验证了实验结果的正确性.     

不等带宽光学梳状滤波器

分析了马赫-曾德尔干涉仪(MZI)型50GHz不等带宽光学梳状滤波器（interleaver）的设计原理,给出一种新型系统结构及设计中所需要的实验参量.利用Gires-Tournois谐振腔（G-T腔）反射光相位的非线性性质,对其特性进行改善.改进后的光学梳状滤波器具有较好的平顶特性.     

一种新型宽带可调谐光滤波器的设计

提出了一种由嵌入式环谐振腔和Mach-Zehnder(M-Z)干涉仪组成的新颖带通滤波器,嵌套环是在环谐振腔的基础上,引入一个类似双线耦合环谐振器的外谐振环。依据耦合模理论推导出滤波器传递函数,并分析了环的光学长度、耦合系数和内外环长度比对其影响。模拟结果证明,通过改变结构参数,滤波器的中心波长和带宽可调,中心波长在1520nm~1600nm波段任意可调,带宽调整范围可达0.2nm~102nm。且保持输出波形有较高的平坦度和较低的旁瓣,可满足通信系统宽带及超窄带带通滤波器的设计要求。     

高品质因子聚合物波导微环谐振腔滤波器

基于紫外固化胶和聚砜聚合物材料体系,采用脊形单模波导结构,理论设计并优化了聚合物波导环形谐振腔滤波器的波导截面参数、弯曲半径和耦合区波导间距等结构参数,分析了其滤波响应特性.并在此基础上,结合光刻、反应离子刻蚀等传统的微加工工艺制备了聚合物环形谐振腔滤波器,并进行了光谱测试,器件测试结果与设计基本符合.结果表明,该聚合物微环谐振腔滤波器在通信波段1550 nm附近的自由光谱范围为0.21 nm,3 dB带宽为0.04 nm,插入损耗为26 dB,消光比达到了11 dB,品质因子达到了3.87×104.该聚合物微环谐振腔滤波器可以用于光通信及光传感集成芯片.     

微机械FP腔可调谐滤波器在WDM系统中的串扰分析

介绍了一种以FP谐振腔为基础,用于波分复用系统的MOEMS器件-电控可调谐FP光滤波器.器件采用微电子机械加工技术研制.研究了FP型解复用器在密集波分复用系统中引入的信道间串扰对系统的影响,并分别讨论了激光器线宽、滤波器带宽、信道间距对串扰的影响.在信道间隔为100GHz,激光器线宽为5GHz,串扰可达到-21dB左右.     

双间隙同轴腔加载波导滤波器输出回路设计

采用高次模同轴输出腔结构和双间隙耦合谐振腔电路结构是提高速调管频率、功率和带宽的两个重要方式。将这两种电路形式相结合,利用等效电路法推导了滤波器加载双间隙耦合输出回路的间隙阻抗实部计算公式。通过等效电路分析和3维电磁场计算软件模拟,研究了降低高次模式双间隙耦合输出回路外观品质因数的方法。最终设计加载滤波器使得输出回路模型带宽达到9.7%。     

基于锚形谐振腔的等离子体波导特性研究

基于表面等离子体激元在金属-介质-金属结构中优良的传输特性,设计了一种由直波导和锚形谐振腔组成的波导滤波器。仿真分析了波导滤波器传输特性和电场分布随结构参数和谐振腔内介质折射率变化规律。结果表明,该锚形谐振腔最佳结构时滤波器半峰全宽低至8 nm,品质因数高达121.9。利用共振波长与结构参数变化规律,设计了光通信波长窗口的窄带带阻滤波器。根据SPPs对谐振腔介质折射率敏感的特性,发现透射谱线随折射率变大而发生红移。本文提出的基于锚形谐振腔的等离子体MIM波导滤波器为设计特定波长的窄带带阻滤波器提供了新思路,也为基于谱线红移特性设计的介质折射率传感器提供了技术支持。     

基于光子晶体的三端口分插复用器

提出了一种新的基于对称全反射壁的光子晶体分插复用器,与其他类型的光子晶体复用器相比,无需对介质柱进行复杂的调节即可实现100%上/下载,方便实际制造.提出的理论模型与基于二维时域有限差分(FDTD)法的数值实验相当吻合,显示出这种器件具有优良的上/下载性能.     

Transmission characteristics of photonic crystal waveguides with stubs and their application to optical filters

We study the transmission characteristics of a photonic crystal waveguide with a single stub of a finite length and propose a double-stub waveguide structure for its application to optical filters. The proposed device operates as a Fabry-Perot interferometer and can be used as a broad bandstop filter and a narrow bandpass filter. These filters are inherently compact and their center frequency is given by the resonant frequency of the stub.     

Design and analysis of two-dimensional photonic crystals channel filter

A novel three-port channel add/drop filter consisting of two waveguides and two cavities is proposed. One is used for a resonant tunneling-based channel add/drop operation from the bus waveguide to the add/drop waveguide, while the other is used to realize the wavelength-selective reflection feedback in the bus waveguide. By means of coupled mode theory in time, the conditions to achieve 100% add efficiency are derived thoroughly. Based on these theoretical analysis, the channel add filter and some other multi-channel filters are designed in two-dimensional photonic crystals (2D PCs) with square lattice of dielectric rods in air. The numerical results by using the finite-difference time-domain (FDTD) method demonstrate almost complete channel add/drop tunneling at resonance via the three-port systems.     

光子晶体微环插分滤波器的理论分析与数值模拟

设计了基于二维正方晶格光子晶体微环的插分滤波器的基本结构,对其进行了时域耦合模理论分析,得到了输出端口的归一化透射率表达式。利用时域有限差分法对滤波器进行数值仿真,仿真结果与时域耦合模理论分析结果一致。结果显示,经过合理的参数调节,滤波器的传输效率可达到98％。这一分析方法同样可以适用于其他光子晶体结构。     

粒子群算法优化异质结构光子晶体环形腔滤波特性

为了提高异质结构光子晶体环形腔滤波器的滤波特性,采用粒子群(PSO)算法对其结构参数进行全局优化.以正方晶格光子晶体环形滤波器结构为优化对象,根据粒子群算法的位置——速度更新公式,对光子晶体缺陷处散射柱、耦合介质柱和内部介质柱的半径进行全局优化.通过理论分析和数值模拟结果可以看出,滤波结构参数优化后,可实现单模窄带滤波.与此同时,归一化透射率由53%提高到97%,证明了该优化算法的有效性,从而为该滤波结构在光电器件中的应用奠定了基础.     

Polarization-independent narrow bandpass filter and narrow transmission-angle filter based on photonic heterostructures composed of single-negative materials

We propose a photonic heterostructure consisting of two substructures composed of single-negative materials. Calculating the transmission spectra, we find that only the electromagnetic wave within a narrow bandpass and a narrow range of incident directions can be transmitted through this structure. Such structure can be used as a polarization-independent frequency filter integrated with a direction filter.     

The narrow band THz filter in metallic photonic crystal slab framework: Design and investigation

A band pass THz filter has been presented by the aid of coupling between the waveguides and ring resonator based on metallic photonic crystal slab. The rows of rods are missed and remaining rods in the rows play as a reflector then the position of central rods are rearranged as a ring, the radius of reflector rods and ring resonator is modified in order to optimize the resonance frequency and Q-factor. In addition, 3D-FDTD method is used for simulation results. One of the predominant features of the proposed structure for THz filter is its capability of obtaining a Q-factor of about 333 in the 1 THz resonance frequency with the normalized peak transmission of higher than 0.7, because of high Q-factor cavity based on ring resonator.     

New version of seven wavelengths demultiplexer based on the microcavities in a two-dimensional photonic crystal

A new two dimensional photonic crystal demultiplexer of wavelength (WDM) is designed by exploiting two Fabry–Pérot reflectors at the end of the bus waveguides. The results show that the light with different wavelengths can be successfully filtered to different ports by setting different radius of the center defect rods in the drop waveguides and high drop efficiency can be achieved by means of reflection feedbacks. The proposed filter has a cross section equal to 9.7 μm × 5.8 μm. In the designed filter, an improvement of the number of channels has been achieved. The normalized transmission spectra of this component have been studied using finite difference time domain (FDTD) method. The important parameters consider for this studies are radius of rods used in Fabry–Pérot reflectors, and radius of center defect rods in the drop waveguides. The demultiplexer we designed can easily separate the light with seven different wavelengths simultaneously. The scope of this paper lies on demultiplexer for communication systems around 1.55-μm wavelength.     

New dual-mode square patch bandpass filter using CSRR slot-type perturbation

A compact dual-mode microstrip bandpass filter using square-patch resonator and a new perturbation element is designed in this letter. This new slot-type element is composed by a complement split-ring resonator (CSRR) with two pairs of etching slots. The nature of coupling between the degenerate modes is investigated with respect to the perturbation size. By proper arranging the orientations of the CSRRs, new coupling characteristics can be obtained. The proposed dual mode bandpass filters are designed, and simulated. The simulation and measure results of proposed bandpass filter are reasonable.     

Optical channel drop filters based on photonic crystal ring resonators

A new optical channel drop filters (CDFs) configuration based on photonic crystals ring resonators (PCRRs) is provided. The transmission characteristics for single-ring and multiple-ring configurations have been investigated by using the two-dimensional (2D) finite-difference time-domain (FDTD) technique in triangular lattice photonic crystal (PC) silicon rods. Both forward and backward dropping were achieved in dual-ring PCRR structures. In this filter, 100% drop efficiency and acceptable quality factor can be obtained at 1550 nm. The present device can be used in the future photonic integrated circuits.