混合纤芯光子晶体光纤超平坦色散的研究

利用平面波展开法，系统地研究了一种具有混合纤芯结构的光子晶体光纤的色散特性. 数值计算结果表明，通过优化结构参量，这种新型结构的光子晶体光纤在通信窗口1.55 μm 附近可以获得带宽超过800 nm的超平坦色散区域（色散曲线的变化范围不超过 ±0.6 ps·km－1·nm－1）.     

用紧束缚方法描述光子晶体缺陷耦合的共振频率移动

通常采用含两个耦合参数的紧束缚近似，就能很好地描述光子晶体缺陷因耦合而导致的共振频率分裂.然而，缺陷耦合造成的共振频率移动，即包含奇数个缺陷的耦合系统的中央共振频率位置与原来单缺陷时的共振频率位置存在差异，则只有采用含三个耦合参数的严格紧束缚方法才能正确描述.根据耦合参数与共振频率的关系，利用三缺陷耦合系统的模拟计算结果确定了三个耦合参数的具体值，从而在理论上能够预言由任意个缺陷构成的耦合系统的共振频率的移动和分裂.理论预言与基于有限时域差分法的数值计算完全相符.     

二维伊辛模型相变临界点温度的模拟计算

用计算模拟方法计算了二维伊辛模型的相变临界点温度,其结果接近严格解,明显布喇格－威廉斯近似和贝特近似的结果。     

太阳光对液晶显示器件光学特性的影响

太阳光对液晶显示器件的影响主要表现在它对其液晶显示器件光稳定性和寿命的影响,从而引起液晶显示器件的迅速老化。通过用分光光度计测量经过不同时间太阳光辐照后液晶显示器件的光谱特性,研究长时间阳光辐照对液晶显示器件的光学性能的影响,分析其光学性能的变化。结果表明, B组普通计算器液晶显示器和C组电话液晶显示器两组液晶片的光学特性类似,品质较好;而A组台式计算器液晶显示器液晶片的老化问题明显比B, C两组严重,品质较差。液晶显示器件长时间受阳光辐照,液晶结构会相应发生变化,光学性能也发生相应变化,表现为液晶表面变黄发黑,其光谱透射特性明显下降。这与液晶材料及制作工艺有关。     

汽车太阳膜的光谱特性分析

用带计算机控制系统的UV-Vis 8500型双光束紫外-可见分光光度计定量测量和分析了市场上某品牌汽车太阳膜的光谱特性。测量分析结果表明：普通膜系列太阳膜透视性能均良好, 隔紫外线效果一般,隔热效果也不理想;防爆膜系列太阳膜隔热效果、隔紫外线效果和透视性均一般;防爆抗磨系列太阳膜隔热效果和透视性均一般, 但隔紫外线效果与其他系列膜比较是最好的;超级前挡膜系列太阳膜透视性能均良好, 隔紫外线效果与隔热效果较好,是综合效果最好的汽车太阳膜。     

液晶光阀的电光色散特性研究

分析液晶光阀(LCLV)的电光色散特性,重点研究扭曲向列型液晶光阀TB3639的电光色散特性。在温度为27 ℃时, 将TB3639液晶光阀置于频率为1 000 Hz的交流电场中,测出电光特性T-λ曲线,同时得到不同波长的T-V电光特性曲线,确定对比度与光波波长的函数关系k(λ),并得出电光色散特性关系曲线k(λ)～λ。分析结果表明, TB3639液晶光阀在可见光区域,具有相对较高的对比度,其色散较小。波长在450～750 nm区域其对比度均大于0.8;其中波长在550～670 nm区域其对比度变化不大,均大于0.95,其色散最小。     

条形耦合波导对光子晶体耦合缺陷模的影响

光子晶体的耦合缺陷模可以通过透射谱形状来表征,而透射谱形状则与连接缺陷的条形耦合波导相关.不同于直接耦合时信号相移只依赖于缺陷模的共振频率,当存在耦合波导时信号相移也决定于波导的长度和色散关系.随着波导长度的增加,透射谱形状发生从三峰到两峰,再到平项,最后又回到三峰的周期性变化.时间耦合模的分析表明,在缺陷模频率附近理论结果与时域有限差分法的计算结果完全一致,表明在此复杂情况下理论模型依然有效.     

Tolerance of Photonic Crystal Impurity Bands to Disorder of Defects in Coupled Cavity Waveguides

We investigate the tolerance of photonic crystal impurity bands to the disorder of defects in one-dimensional coupled cavity waveguides. Although impurity bands formed by defect modes close to the air band are quasiflat in the absence of disorder, they are easily deteriorated when disorders are introduced into defects. In contrast, impurity bands created by defect modes near the dielectric band are less sensitive to disorder in the defect size. It is found that the sensitivity of defect mode frequency to defect size and the quality factor of defect modes are two crucial factors in determining the tolerance of impurity bands to the disorder of defects.     

Unidirectional Transmission in Asymmetrically Confined Photonic Crystal Defects with Kerr Nonlinearity

We investigate the unidirectional transmission behaviour of an asymmetrically confined photonic crystal （PC） defect with Kerr nonlinearity. Basically, the unidirectional transmission originates from the strong dependence of the threshold input power for the sharp increase of transmission on the launch direction of the input wave. This can be well explained in the framework of the coupled mode theory. Our theoretical analysis reveals the existence of an upper limit for the transmission contrast when such a single PC defect is employed. This is supported by the simulation results based on the nonlinear finite-difference time-domain technique.     

Investigation and Modification of Coupling of Photonic Crystal Defects

We investigate the coupling of photonic crystal (PC) defects by using coupled-mode theory. The PC molecules formed by the coupling of two identical PC atoms are the focus of our study. It is revealed that the flatness of the transmission spectra of the PC molecules is determined uniquely by the phase shift of the travelling wave between the two coupled PC atoms. By properly adjusting the distance between the two constitutional PC atoms, we are able to modify the transmission spectrum of the resulting PC molecule. Theoretical analyses based on the coupled-mode theory are in good agreement with the simulation results obtained by the transfer matrix method and the finite-difference time-domain technique.