Li LiangSheng, Yin Hongcheng
Science and Technology on Electromagnetic Scattering Laboratory, Beijing 100854, China.
Sci Rep. 2016 Jun 1;6:26988. doi: 10.1038/srep26988.
We have theoretically investigated the reflectivity spectrums of single- and double-layer photonic crystal slabs and the dielectric multilayer stack. It is shown that light can be perfectly confined in a single-layer photonic crystal slab at a given incident angle by changing the thickness, permittivity or hole radius of the structure. With a tunable double-layer photonic crystal slab, we demonstrate that the occurrence of tunable bound states in the continuum is dependent on the spacing between two slabs. Moreover, by analytically investigating the Drude lossless multilayer stack model, the spacing dependence of bound states in the continuum is characterized as the phase matching condition that illuminates these states can occur at any nonzero incident angles by adjusting the spacing.
我们从理论上研究了单层和双层光子晶体平板以及介质多层膜堆的反射光谱。结果表明,通过改变结构的厚度、介电常数或孔半径,光可以在给定入射角下完美地限制在单层光子晶体平板中。利用可调谐双层光子晶体平板,我们证明了连续统中可调谐束缚态的出现取决于两个平板之间的间距。此外,通过对德鲁德无损多层膜堆模型进行分析研究,连续统中束缚态的间距依赖性被表征为相位匹配条件,即通过调整间距,这些态可以在任何非零入射角下出现。