排序方式: 共有15条查询结果,搜索用时 15 毫秒
1.
提出基于金属薄膜-分布式布拉格反射器微腔效应增强单层二硫化钨光吸收的多层薄膜结构.运用光学传输矩阵理论研究了其输运特性,发现由于金属薄膜-分布式布拉格反射器的微腔效应,在间隔层和覆盖层之间形成电场强度极大值,有效促进入射光与单层二硫化钨的相互作用.综合优化金属层、间隔层和覆盖层厚度,单层二硫化钨在612 nm处的光吸收提高了38倍,达到78.42;.进一步探讨了光入射角、分布式布拉格反射器周期、间隔层折射率与单层二硫化钨光吸收的关系.研究结果表明,上述结构参数的变化可有效调控单层二硫化钨的吸收峰值.研究结果为制备高性能单层二硫化钨光电探测器等新型光电子器件提供了新思路. 相似文献
2.
3.
两端对称负折射率缺陷复合光子晶体:多通道滤波和光开关 总被引:1,自引:1,他引:0
采用传输矩阵法对两端对称负折射率缺陷复合光子晶体结构[D(AB)mD]N的透射特性进行了研究.结果表明:当N=2时,该结构透射谱的禁带出现两个完全共振透射峰,当N增加时,每个共振透射峰又分裂为N-1条;当复合光子晶体的层数m逐渐增加时,透射峰的品质因子逐渐提高,且分裂的共振透射峰距离逐渐减少;既为该结构实现高品质的多通... 相似文献
4.
用两端对称缺陷复合光子晶体实现多通道滤波和光开关 总被引:3,自引:3,他引:0
用传输矩阵法计算了两端对称缺陷复合光子晶体结构的光传输特性。计算结果表明:两端对称缺陷复合光子晶体[D(AB)mD]2结构中的禁带出现两个完全共振透射峰。通过控制入射光强来微调光子晶体材料的介电常数,使得完全共振透射峰移动,且介电常数变化越大,共振透射峰偏移越大,从而形成高效率的双通道光开关。当光子晶体为[D(AB)mD]N结构时,每个完全共振透射峰都分裂为N-1条,这样可通过调节N同时实现所需要通道数目的高效多通道光开关和多通道滤波器。 相似文献
5.
研究了线性情况,自聚焦和自散焦非线性情况下Parity-Time对称Scarff复合势中二级孤子和三级孤子的存在与稳定性.对于线性情况,数值得到了不同调制深度下的Parity-Time对称Scarff复合势中的Parity-Time对称破坏点、本征值和多级线性模.对于非线性情况,研究了自聚焦与自散焦介质中的二级孤子和三级孤子的存在与稳定性.研究结果表明:对于确定的调制深度,二级线性模和三级线性模的本征值恰好等于相应的调制深度下二级孤子和三级孤子存在的临界传播常数b_c.在自聚焦与自散焦介质中,多级孤子能稳定存在于靠近临界传播常数b_c的区域. 相似文献
6.
用FD-UI-A非线性元件伏安特性实验仪测量了普通二极管和稳压二极管伏安特性,研究了用软件处理非线性数据的过程.研究结果表明,普通二极管和稳压二极管的伏安特性呈现出非线性,但其-呈良好的线性关系,其斜率反映了二极管材料的导电特性. 相似文献
7.
The contrast between defect solitons in parity-time symmetric superlattice and simple-lattice complex potentials 下载免费PDF全文
The existence and stability of defect superlattice solitons in parity-time (PT) symmetric superlattice and simplelattice complex potentials are reported.Compared with defect simple-lattice solitons in similar potentials,the defect soliton in superlattice has a wider stable range than that in simple-lattice.The solitons’ power increases with increasing propagation constant.For the positive defect,the solitons are stable in the whole region where solitons exist in the semi-infinite gap.For the zero defect,the solitons are unstable at the edge of the band.For the negative defect,the solitons propagate with the shape of Y at low propagation constant and propagate stably at the large one. 相似文献
8.
The existence and stability of defect solitons supported by parity-time (PT) symmetric defects in superlattices are investigated. In the semi-infinite gap, in-phase solitons are found to exist stably for positive defects, zero defects, and negative defects. In the first gap, out-of-phase solitons are stable for positive defects or zero defects, whereas in-phase solitons are stable for negative defects. For both the in-phase and out-of-phase solitons with the positive defect and in-phase solitons with negative defect in the first gap, there exists a cutoff point of the propagation constant below which the defect solitons vanish. The value of the cutoff point depends on the depth of defect and the imaginary parts of the PT symmetric defect potentials. The influence of the imaginary part of the PT symmetric defect potentials on soliton stability is revealed. 相似文献
10.
The contrast between defect solitons in parityben time symmetric superlattice and simple-lattice complex potentials 下载免费PDF全文
The existence and stability of defect superlattice solitons in parity-time (PT) symmetric superlattice and simple-lattice complex potentials are reported. Compared with defect simple-lattice solitons in similar potentials, the defect soliton in superlattice has a wider stable range than that in simple-lattice. The solitons' power increases with increasing propagation constant. For the positive defect, the solitons are stable in the whole region where solitons exist in the semi-infinite gap. For the zero defect, the solitons are unstable at the edge of the band. For the negative defect, the solitons propagate with the shape of Y at low propagation constant and propagate stably at the large one. 相似文献