巨腔系统中的光子屏蔽

随着巨原子研究的展开,量子干涉效应的应用逐步广泛.基于量子干涉效应,利用海森伯-郎之万方程,研究了巨腔与波导耦合系统的相位调控,打破了传统小原子与波导耦合体系中偶极近似的限制.研究表明,通过给系统外加一对相位差为?的驱动,在三腔系统中,当系统达到稳态时,腔阵列波导的中间腔与单模巨腔内的光子数可以实现双向屏蔽.将研究拓展至多腔系统中时,可在不同条件下分别实现巨腔与耦合腔阵列波导的单向和双向屏蔽.基于量子干涉效应的光子调控,该系统可以实现腔的光子数为0,希望在量子器件设计和量子信息处理等领域实现新应用.     

一种硅基金属狭缝表面等离子体波导的设计

设计了一种适用于光电子集成电路的表面等离子体波导结构.利用三维全矢量时域有限差分法对该波导结构进行了数值模拟,并分析了其在基模传输时的模式场分布与金属结构顶角的关系以及其能量限制性.研究了该波导结构在不同金属材料下的有效折射率和传播长度对芯层宽度的依赖关系,讨论了两个该波导结构之间的耦合长度、最大转移功率和彼此间的串扰.结果表明:光场被高度限制在芯层区域,在金属结构顶角为135°时,其能量限制因子更高;在金属材料确定的情况下,有效折射率随芯层宽度增大而减小,而传播长度增大;在芯层宽度一定的条件下,两个波导结构间的耦合长度随波导间距增大而增大,最大转移功率和串扰随波导间距增大而减小.     

含stubs量子波导系统的电子自旋极化输运性质

理论上研究了含stubs的Rashba自旋轨道耦合（spin-orbit coupling, SOC）量子波导系统的自旋极化输运性质. 利用晶格格林函数方法,发现由于stubs和SOC产生的势阱使系统中出现束缚态,这些束缚态与传播态之间相互干涉导致电导中出现Fano共振结构,同时在对应的自旋极化率中也出现Fano共振或反共振结构. 此外,由于系统结构的突变使电子被反向散射和量子干涉效应,电导中出现一系列的共振峰. 但是,当系统加上外磁场后,所有这些效应都被抑制, 系统重新出现量子化电导, 同时自旋电导也出 关键词： 量子波导 自旋极化输运 自旋轨道耦合     

应用耦合模理论研究光在圆对称双包层光纤中的传输

为了深入理解双包层光纤的光场传输特性,应用耦合模理论将双包层光纤等效为相互耦合的单模光纤和环形芯光纤,研究了圆对称的双包层光纤的光场传输.通过计算单模光纤LP01模和环形芯光纤导模的耦合系数发现了环形芯光纤LP0n模的耦合系数远大于其它导模的耦合系数,且LP0n模中的高阶模比低阶模的耦合系数大.据此,应用耦合模理论计算得到了该双包层光纤的光传输特性,计算结果发现光场沿光纤轴向呈近似周期分布,且纤芯中光功率变化的平均周期随波长递增,但平均归一化功率与光纤参数紧的选择有关.     

应用耦合模理论研究光在圆对称双包层光纤中的传输(英文)

为了深入理解双包层光纤的光场传输特性,应用耦合模理论将双包层光纤等效为相互耦合的单模光纤和环形芯光纤,研究了圆对称的双包层光纤的光场传输.通过计算单模光纤LP01模和环形芯光纤导模的耦合系数发现了环形芯光纤LP0n模的耦合系数远大于其它导模的耦合系数,且LP0n模中的高阶模比低阶模的耦合系数大.据此,应用耦合模理论计算得到了该双包层光纤的光传输特性,计算结果发现光场沿光纤轴向呈近似周期分布,且纤芯中光功率变化的平均周期随波长递增,但平均归一化功率与光纤参数紧的选择有关.     

T型耦合双量子点系统的非对等Kondo共振分裂传输

利用隶玻色子平均场近似理论,并借助于单杂质的Anderson模型的哈密顿量,研究了T型耦合双量子点嵌入正常电极的基态输运性质.结果表明：在体系处于平衡状态时,随着双量子点的耦合强度增加,体系的Kondo 效应被削弱. 当耦合强度足够强时,Kondo量子点态密度的Kondo共振单峰分裂成两个不对等的Kondo共振双峰.在体系处于非平衡状态时,增加两电极的偏压,态密度的Kondo分裂的非对等性明显加强. 关键词： Kondo效应 态密度 格林函数法 耦合双量子点     

有限元分析法在SOI基微环谐振器设计中的应用

利用有限元法(FEM)分析了大横截面SOI(Silicon-on-insulator)脊型波导的本征模式分布,确定了脊型波导的单模条件。在保证单模传输的情况下,模拟了SOI微环谐振器中波导耦合器的耦合长度、功率耦合系数与波导尺寸和间距的关系。模拟结果表明:对于W=1μm,H=2μm的SOI脊型波导耦合器,耦合长度LC随波导间距d的增加而增大,功率耦合系数随之减小。在波导间距d0.8μm的情况下,耦合长度LC随着归一化脊高r的增加而增大,当d0.8μm时,耦合长度LC随r的增加而减小。模拟结果为SOI微环谐振器的设计和应用提供了理论依据。     

大气湍流对轨道角动量态复用系统通信性能的影响

通过数值仿真,以多个相位屏模拟大气湍流,研究大气湍流对轨道角动量(Orbital Angular Momentum,OAM)态复用通信系统质量的影响.改变大气湍流折射率结构常量C2n和传输距离z,分析其对OAM态复用系统归一化接收功率、误码率等的作用.研究结果表明当大气湍流强度增加和传输距离增长时,复用系统归一化接收功率下降、误码率增加.当C2n增大到5×10-13 m-2/3时,系统归一化接收功率下降到0.2以下,误码率增大到0.3以上;当传输距离增大到10 000m,系统归一化接收功率下降到0.3以下,误码率增大到0.35以上.同时,对比不同方位角指数l取值的两个OAM态复用系统受大气湍流的影响,发现:l取值越接近的系统,受大气湍流影响越大.在等同光学信噪比下大气湍流导致OAM态复用系统误码率性能降低2至3个数量级.该研究对OAM态复用系统的实用化具有积极的参考作用.     

两量子比特与谐振子相耦合系统中的量子纠缠演化特性

在非旋波近似下, 利用相干态正交化展开方法, 对两量子比特与谐振子相耦合系统中的量子纠缠演化特性进行了精确计算. 讨论了在共振时, 两量子比特和谐振子耦合系统基态的性质以及量子比特和谐振子之间的纠缠与量子比特-量子比特间的纠缠的不同. 结果表明: 当不考虑外场时, 量子比特-量子比特间的纠缠随着耦合强度的增大从1迅速地减小到零, 表明了量子比特-量子比特间的纠缠对耦合强度是非常敏感的; 而量子比特和谐振子之间的纠缠随着耦合强度的增大从零迅速地增大, 但不能达到理论上的最大值2; 当初始时刻两量子比特没有纠缠时, 在弱耦合强度下, 真空场不能导致纠缠的产生; 而强的耦合非旋波效应则可以导致纠缠的突然产生现象. 关键词： 相干态正交化展开 非旋波近似 量子纠缠     

像散飞秒贝塞尔光在石英玻璃中刻写双芯光波导的研究

利用角锥棱镜将准直飞秒高斯光束转变为飞秒贝塞尔光束,利用飞秒贝塞尔光束在石英玻璃样品中刻写了单芯和双芯光波导.实验中首先使用无像散的脉宽50 fs的贝塞尔激光脉冲在石英玻璃中刻写出单芯光波导,研究了波导直径和折射率改变量随激光脉冲能量和脉冲个数的变化关系.通过旋转角锥棱镜,在飞秒贝塞尔光束中引入像散,利用像散飞秒贝塞尔光束在石英玻璃中刻写了双芯光波导.实验发现,当角锥棱镜的转角为1?时,可以制备出双芯间距仅为5.6μm的双芯光波导.当双芯波导沿某一方向移动时,在近场可观察到从双芯输出的光强出现周期性的亮暗变化,这应是由双芯间距较小导致的.当角锥棱镜的转角增大至3?和5?时,制备的波导双芯之间的间距分别增大至9.1μm和16.1μm,此时没有观察到双芯光强随位置改变的往复变化.本文刻写的双芯光波导可用作高灵敏度差分位移传感器(可探测的最小位移小于3μm).与传统的单芯波导的位移传感器相比,双芯波导差分位移传感器一方面大幅提高了探测的灵敏度和信噪比;另一方面也降低了高灵敏度位移传感器的装配难度.     

熔锥型微纳光纤耦合器的理论与实验研究

针对熔融拉锥系统制得的熔锥型微纳光纤耦合器,选择适当的连续函数描述其光场分布,采用归一化的三角分布和矩形分布的加权叠加,以及高斯分布和三角分布的加权叠加实现了模场沿耦合器区域的连续变化;利用局部模式耦合理论推导出腰区及腰区附近锥形区的耦合系数计算公式,并得到微纳光纤耦合器输出光功率随拉伸长度的变化曲线.计算结果表明,随着拉伸长度的增加,光能量在两臂中来回交替耦合的程度变小并且呈现包络样,直至腰区耦合功能消失.通过实时监测拉制微纳光纤耦合器的输出光功率,得到火焰扫描宽度以及氢气流量对双纤失去耦合效应拉伸长度的影响:火焰扫描宽度(均匀腰区)越宽,拉伸长度临界值越大;氢气流量(熔融度)越大,拉伸长度临界值越小.实验结果显示,当光纤耦合器腰区直径达到1.6μm时,耦合功能消失,两输出端口光功率相同且恒定,微纳光纤耦合器具备稳定的光学传输特性.     

Design principles of multifiber resonant directional couplers with hollow Bragg fibers: example of a 3 x 3 coupler

When several hollow photonic crystal fibers (HPCFs) are placed in proximity to each other, radiation-induced interfiber coupling between their core guided modes is observed. Under certain conditions coupling between the core modes of two touching collinear fibers can have a resonant increase via excitation of a low-quality intermirror cavity resonant state. Such coupling, however, decreases dramatically within the first micrometer of intermirror separation. Moreover, when fibers are touching, in the frequency domain a large number of accidental degeneracies with fiber surface and mirror states complicate the design of a stable 2 x 2 coupler. To alleviate these problems we consider coupling among three hollow Bragg fibers. When placed in the vertices of an isosceles triangle, even for a finite separation between fibers, triangular interfiber cavity forms a high-quality resonator that can be tuned via additional structural elements to a particular frequency of interest. Interfiber surface states are suppressed by keeping the fiber separation finite, thus allowing stable coupling conditions in a 3 x 3 HPCF coupler configuration.     

Femtosecond pulse switching in a fiber coupler with third order dispersion and self-steepening effects

A numerical study of femtosecond pulse propagation and switching in a dual-core nonlinear directional coupler with the consideration of third order dispersion and self-steepening effects is reported. The Split Step Fourier Method (SSFM) is used to investigate the switching characteristics of nonlinear directional couplers. It is observed that the energy transfer from core to core is not affected by changing the input pulse shapes except super-Gaussian. While the normalized coupling co-efficient and the input peak power dominate the coupling characteristics, the effects of third order dispersion (TOD) and self-steepening (SS) are also reported.     

Simplified coupling power model for fibers fusion

Fiber coupler fabrication used for an optical waveguide requires lossless power for an optimal application. The previous research coupled fibers were successfully fabricated by injecting hydrogen flow at 1 bar and fused slightly by unstable torch flame in the range of 800–1350°C. Optical parameters may vary significantly over wide range physical properties. Coupling coefficient and refractive index are estimated from the experimental result of the coupling ratio distribution from 1% to 75%. The change of geometrical fiber affects the normalized frequency V even for single mode fibers. V is derived and some parametric variations are performed on the left and right hand side of the coupling region. A partial power is modelled and derived using V, normalized lateral phase constant u, and normalized lateral attenuation constant, w through the second kind of modified Bessel function of the l order, which obeys the normal mode and normalized propagation constant b. Total power is maintained constant in order to comply with the energy conservation law. The power is integrated through V, u, and w over the pulling length of 7500 μm for 1-D. The core radius of a fiber significantly affects V and power partially at coupling region rather than wavelength and refractive index of core and cladding. This model has power phenomena in transmission and reflection for an optical switch and tunable filter.     

掺铒光纤非线性耦合器的实验研究

提出一种耦合参量可用光调控的掺铒光纤非线性耦合器.用熔融拉锥法熔合两根掺铒光纤,拉制成工作波长为155nm的3dB掺铒光纤耦合器.通过调变输入耦合器一臂的980nm泵浦光功率,可以改变两臂的传播常量差,从而改变耦合器两臂信号光的相对输出功率.通过测量输入泵浦光功率和两臂信号光输出功率,得到直通臂耦合比依赖于泵浦光功率的实验曲线.实验研究表明,当泵浦光功率从0 mW变化至20 mW时,耦合比的变化可达到40％.与理论模拟的结果一致.     

InP-based evanescently coupled high-responsivity photodiodes with extremely low dark current density integrated diluted waveguide at 1550 nm

In this paper, we have demonstrated a high performance waveguide photodiode integrated diluted waveguide serving as a fibre-to-waveguide coupler to achieve high coupling efficiency. High responsivity (> 1 A/W), high saturation power (> 45 mA) in the static state and extremely low dark current density (0.04 pA/μm²) with 3 dB bandwidth at 13.4 GHz have been achieved.     

Light propagation in a directional coupler with saturable nonlinearity

The propagation of laser radiation in a nonlinear directional coupler with identical optical waveguides is studied theoretically. Account is taken of refractive index saturation. Bifurcations of the intensity distribution and transmission characteristic are revealed, and respective regions in the parameter plane are delineated. Two points of input intensity self-switching are found. A coupling length vs. normalized input intensity is investigated for different values of the nonlinearity parameter. Distinctive features of the coupler with saturated nonlinearity compared with Kerr-type couplers are highlighted.     

A 1 × 7 fibre coupler with Kerr nonlinearity

We study for the first time the evolution of the guided field in a 1×7 fibre coupler with a third-order nonlinearity. An analytical solution of the nonlinear coupled-mode equations is presented in terms of the Weierstrass function. In particular, we found that contrary to the equal power distribution in the linear limit, a cross-state appeared if the coupler was initially excited in the central core and a certain input power was chosen. Finally, we analyse the far-field pattern of the coupler output.     

Tunable ultrafast nonlinear optofluidic coupler

We present an optofluidic nonlinear coupler fabricated by selective filling of two strands of a photonic crystal fiber with the liquid CCl4 which exhibits a large ultrafast Kerr nonlinearity. We demonstrate power dependent switching in this novel optofluidic device. The large thermo-optical effect of liquids enables us to tune the behavior of the nonlinear coupler by changing the coupling strength with temperature. This opens the road towards flexible designs and realization of a new class of tunable ultrafast nonlinear couplers with switching times below 1 ps.     

基于LiNbO_3的长周期波导光栅可调谐耦合器的设计

设计了一种基于LiNbO_3的长周期波导光栅可调谐耦合器.该耦合器利用长周期光栅的独有特性将输入波导的导模经包层模耦合至输出波导导模.由于LiNbO_3的电光效应,波导光栅芯层与包层的有效折射率随外加电压变化,从而耦合器的谐振波长及耦合效率可由外加电压调谐.分析了光栅周期与耦合器的长度对耦合器带宽和耦合效率调谐范围的影响,以及波导尺寸对谐振波长调谐灵敏度的影响.结果表明光栅周期越短,耦合器长度越长,则耦合器的带宽越窄,耦合效率调谐范围也越大.此外,谐振波长调谐灵敏度随波导宽度的增加而减小,而波导厚度对谐振波长调谐灵敏度的影响可以忽略.对光栅周期为94μm、长度为3.52cm的耦合器进行仿真,结果表明,谐振波长灵敏度为26.2pm/V,3dB带宽可达4.5nm,当外加电压从0变化到200V时,谐振波长变化5.24nm,耦合效率可在1到0.15之间进行调谐.