WCDMA系统用窄带高温超导滤波器设计

本文在耦合矩阵的基础上设计了一个适用于WCDMA系统的12节窄带高温超导带通滤波器.滤波器基于镀有双面YBCO超导薄膜的蓝宝石基片设计,尺寸为47.54mm×18.12mm,中心频率为1940MHz,相对带宽为0.5%.滤波器采用具有非相邻耦合较弱特点的双层环带结构谐振器,抑制了不可控传输零点的出现.设计结果显示高频端和低频端的通带带边陡峭度分别达到了27.3dB/MHz和30dB/MHz,带内插损小于0.07dB,带外抑制达到100dB.本文同时讨论了交叉耦合对滤波器性能的影响.     

小型化多层双模基片集成波导平衡带通滤波器

针对平衡滤波器小型化和高选择的应用需求,提出两种新型的多层双模基片集成波导平衡带通滤波器。首先详细分析了基于平衡端口馈电的双模基片集成波导谐振器的特性;然后根据谐振模式分布特性,设计了一种输入输出馈线同时在上层双模谐振器上的四阶平衡带通滤波器,下层双模谐振器通过十字交叉槽线结构与上层谐振器耦合,可以实现三个传输零点;又提出一种输入和输出馈线分别在上层和下层双模谐振器上的四阶平衡带通滤波器,上层和下层谐振器通过一个槽线进行耦合,可以实现两个对称的传输零点。基于提出的两种平衡滤波器结构,分别设计了一个中心频率为10 GHz的平衡带通滤波器,并进行加工和测试。测试和仿真结果一致性较好,表明了该结构可以实现小型化和高选择,并且具有很好的共模抑制特性。     

直线型端口类盒型拓扑结构微带滤波器设计

针对微波带通滤波器小型化、高性能的应用需求,研究了基于双模方形环谐振器的直线型端口的两阶带通滤波器响应特性,进一步提出使用单模谐振器和双模谐振器相结合设计直线型端口的高阶微带带通滤波器。提出的直线型端口双模方形环微带滤波器具有类盒型拓扑结构,能够实现灵活的频率响应特性,而且传输零点的位置可调,能够满足不同的应用需求。由于存在寄生的对角交叉耦合路径,提出的类盒型拓扑结构微带滤波器可以实现一个额外的传输零点。为了验证结构和设计方法的可行性,设计了两款中心频率为5.2 GHz的三阶和五阶带通滤波器,最后进行加工和测试。耦合矩阵响应、仿真和测试结果一致性较好,表明了该结构实现高性能滤波器的可行性。     

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。     

一种超窄带高温超导滤波器的研制

本文介绍了一款工作于L波段的4阶超窄带高温超导滤波器,该滤波器相对带宽仅为0.5‰,插入损耗为0.3dB.给出了超窄带滤波器的拓扑结构、理论曲线、耦合矩阵、物理电路以及实际测试结果.采用蒸镀于2英寸0.5mm厚度的氧化镁(MgO)基片上的DyBa2Cu3O7双面高温超导薄膜制作,滤波器的测试曲线、模拟仿真、理论计算三者有很好的吻合,取得了较为理想的结果.     

自由光谱范围加倍的单微环谐振滤波器

基于两点耦合和光波干涉控制相移思想提出U型波导耦合单微环的谐振滤波器结构。利用传输矩阵法推导了此结构的数学模型,采用Matlab模拟了输出端口谱线形状。当微环与U型波导的两个耦合点之间的距离为微环周长的整数倍时,此新型微环谐振滤波器比传统的双直波导耦合单微环滤波器的自由光谱范围增加1倍。针对该结构参数,同时讨论了耦合系数对输出谱线的影响,得出当耦合系数为0.018时,输出谱线具有最佳的消光比,同时保持窄的带宽和高的品质因子。     

自均衡线性相位高温超导滤波器的设计

针对第三代移动通信CDMA 2000标准用超导滤波器的技术要求,设计了一种自均衡线性相位高温超导滤波器,给出了14阶三个交叉耦合的CQ结构滤波器理论计算结果、等效电路、耦合矩阵,设计的滤波器中心频率为830MHz,65%带宽内的群时延波动优于±10ns,滤波器模拟仿真结果与理论计算很好得吻合。     

平面弯曲波导耦合器的特性分析

根据耦合模理论和弯曲波导耦合器的结构特点,对平面弯曲波导耦合器的特性进行了分析,结果表明弯曲波导耦合器的弯曲半径和最小间距两个可调变量,增加了波导器件设计的灵活性;同时由于等效耦合长度的调制作用使得弯曲波导耦合器在波分复用/解复用中比平行直波导耦合器具有更大的复用带宽;分析了弯曲半径和最小间距对弯曲波导耦合器复用带宽的影响,为实际波导器件的设计制作提供了一定的理论依据.     

空间交叉波导耦合特性分析

由两根在空间呈X型放置的光波导组成的空间交叉波导结构是构成垂直耦合光分束器、垂直耦合光滤波器、垂直耦合光开关和垂直耦合上/下复用器等三维集成光学器件的基本结构单元.提出用一种等效模场匹配法分析空间交叉波导耦合特性,将矩形波导的场分布看成是对圆对称光纤场分布的微扰,解决了对角区场分布的表达,从而计算空间交叉波导的耦合长度,并用三维全矢量光束传输法验证了分析结果.将两种方法所得的空间交叉波导耦合长度加以比较,最大误差为1.2%,平均误差为0.9%.结果表明该等效模场匹配法具有精度高、运算速度快等优点,为基于空间交叉波导的三维集成光学器件的设计和分析提供理论基础.     

一种基于矩形腔的MIM波导滤波器的滤波特性研究（英文）

理论提出并研究了一种基于矩形腔的窄带金属-介质-金属波导滤波器.建立滤波器内电场的传递矩阵模型,研究了矩形微腔与直通波导间耦合特性对器件滤波特性的影响.同时,研究了耦合长度、矩形微腔腔长、传输损耗等因素对滤波带宽的影响.研究结果表明,对于不同的矩形微腔腔长,存在一个可使器件滤波带宽达到最窄的耦合系数.此外,当微腔腔长越长且传输损耗越小时,滤波带宽也将越窄.该研究为表面等离子体波导的研究与设计提供了一定的参考.     

包含源与负载耦合的滤波器诊断与调试方法

柯西法目前仅适用于诊断不包含源与负载耦合的带通滤波器。为解决这一问题,提出了一种能够诊断包含源与负载耦合的带通、带阻谐振腔滤波器的方法。利用遗传算法优化获得源与负载耦合系数并移除滤波器输入/输出端口处传输线引起的S参数的相位加载效应;使用柯西法一步确定仿真S参数对应的特征多项式;从获得的源与负载耦合系数和特征多项式中,利用已有的技术诊断出N+2阶耦合矩阵。此方法可用于指导滤波器的调试,通过对比理想的耦合矩阵与提取的耦合矩阵之间的差异,可确定滤波器问题出自何处以及调试的方向,从而加快滤波器的设计与实现。     

Negative probabilities and information gain in weak measurements

We study the outcomes in a general measurement with postselection, and derive upper bounds for the pointer readings in weak measurement. The probabilities inferred from weak measurements change along with the coupling strength; and the true probabilities can be obtained when the coupling is strong enough. By calculating the information gain of the measuring device about which path the particles pass through, we show that the “negative probabilities” only emerge for cases when the information gain is little due to very weak coupling between the measuring device and the particles. When the coupling strength increases, we can unambiguously determine whether a particle passes through a given path every time, hence the average shifts always represent true probabilities, and the strange “negatives probabilities” disappear.     

Design of Low-Profile Millimeter-Wave Substrate Integrated Waveguide Power Divider/Combiner

A low-profile millimeter-wave substrate integrated waveguide (SIW) power divider/combiner is presented in this paper. The simplified model of this compact SIW power dividing/combining structure has been developed. Analysis based on equivalent circuits gives the design formula for perfect power dividing/combining. In order to verify the validity of the design method, a four-way SIW power divider/combiner circuit operating at Ka band is designed, fabricated and measured. Good agreement between simulated and measured results is found for the proposed passive power divider/combiner. Experiments on the four-way passive divider/combiner back-to-back design demonstrate a minimum overall insertion loss of 1.5 dB at 31.1 GHz, corresponding to a power-combining efficiency of 84%. The measured 10-dB return loss bandwidth is demonstrated to be 2.2 GHz, and its 0.5-dB bandwidth was 2 GHz.     

Investigation on parameters affecting the performance of two dimensional photonic crystal based bandpass filter

A two dimensional Photonic Crystal based Bandpass Filter is designed by exploiting coupling between the quasi waveguides and the circular Photonic Crystal Ring Resonator (PCRR). The output efficiency, resonant wavelength and bandwidth of PCBPF are investigated by varying the dielectric constant of the structure. The normalized transmission spectra of circular PCRR are taken using 2D Finite Difference Time Domain method. The Photonic Band Gap is calculated by Plane Wave Expansion method. Close to 100% (Band II) output efficiency is observed over the wavelength range from 1,504 to 1,521?nm and 85% (Band I) is obtained at 1,420?nm through simulation. The full width half maximum bandwidth of these bands is 35 and 20?nm, respectively. Further, the parameters that affect the resonant wavelength, output efficiency and bandwidth of the filter such as size of the reflector, radius of the coupling rods, lattice constant, rod radius and number of rods in the structure are analyzed. The overall size of the proposed filter is 11.4?μm ×?10.2?μm, which is smaller than the filters already reported in the literature and highly desirable for Photonic Integrated Circuits.     

一种基于小波和矩阵型扩散的图像放大

提出了一种基于小波多分辨分析和矩阵型扩散的图像放大方法.该方法把原图像作为放大图像的小波低频子带,初始高频置零小波重构,用矩阵型扩散方程处理后小波分解,得到估计的高频再与原图像重构.在扩散中取矩阵型扩散的扩散系数,选择其特征根,使扩散在垂直于边缘方向梯度较大时为逆扩散以锐化边缘,而沿边缘方向为正向扩散以增强边缘;同时提出了放大图像与原图像的一种相似性标准.该方法在放大图像的同时既去除了噪音又有效保持了边缘.数值实验结果证实,此方法为一个有效地图像放大方法.     

Engineering the nonlinear phase shift

We treat the nonlinear phase shift response in the weak perturbation limit as a linear digital filter that can be synthesized into the values of its poles and zeros and mapped onto an optical architecture. This procedure results in a significant enhancement in the nonlinear sensitivity with a response that is robust to frequency changes within the filter passband. A precompensation technique can be used to reduce distortions under strongly driven nonlinear operation to achieve a larger phase shift. We also show that nonlinear sensitivity improves with increasing filter group delay and can be increased within constant linear bandwidth by use of higher-order filters.     

Predistortion techniques for synthesizing coupled microring filters with loss

A general method based on the predistortion technique is presented for determining the optimum coupling parameters of multiple-coupled microring filters in the presence of known uniform resonator loss. The technique involves predistorting the filter transfer function by shifting its poles and zeros to compensate for loss in the microring resonators due to material absorption, surface roughness scattering, coupling loss and bending loss. It is shown that by sacrificing some in-band insertion loss, both the amplitude and group delay responses of the filter can be recovered when loss is present. Application of the method to synthesizing lossy microring filters in both the digital z-domain and analog s-domain will be presented. The proposed technique is general in that it can be applied to both amplitude and phase filters constructed of coupled microresonators in the most general two-dimensional coupling topology.     

基于互耦补偿策略的IFFT算法及其应用

介绍了一种基于互耦补偿矩阵(MCCM)的迭代快速傅里叶变换(IFFT)技术,并将其应用于宽角度扫描相控阵的低旁瓣综合中。首先,在所提出的综合方法中,将互耦补偿矩阵引入到IFFT技术中以考虑阵元间的互耦效应,使考虑互耦的阵列远场重新满足方向图乘积原理。然后,提出了一款基片集成波导背腔结构的宽波束天线单元,该天线能够同时激励起TE110与TE210两种模式从而展宽其工作频带且具有宽波束性能,并且基于此单元分别建立了阵元数为35,75,100的宽角度扫描相控阵天线。最后,利用所提出的IFFT技术对这三个相控阵进行低旁瓣综合。与基于有源单元方向图遗传算法的对比结果表明,在-60°到60°的扫描范围内均能实现低旁瓣电平,并且IFFT优化算法具有更快的速度。