中文摘要：

用球面波展开的多重散射理论计算了光子量子阱的透射系数．光子量子阱由两层光子势垒之间夹置一层均匀介质构成，由于光子带隙的失配，类似于电子量子阱，形成所谓光子量子阱．对透射峰位置的计算结果表明某些光子态以量子化的形式存在，满足量子化频率关系。同时证明有限高的光子势垒在不同光子能级中起到不同的限制作用．共振峰的位置和数量可通过改变阱宽而实现人工调控，通过适当选择阱和垒的参数能够实现高质量的多通道滤波，对光子晶体耦合双量子阱的计算表明，当阱间的垒宽度增加时，两个模式的耦合减弱，模式分裂的间距减小。

英文摘要：

The resonant transmission properties of a photonic quantum-well were studied by a spheric-wave expansion method in combination with multiple-scattering techniques. Similar to the electronic quantum wells the photonic quantum-well is constructed by sandwiching a uniform medium between two photonic barriers. The calculated resonant transmission peaks show that some photonic states exist in a quantized way, satisfying a quantized frequency relation. The finite photonic potential barrier plays different confining roles on the different photonic levels. By appropriately choosing the parameters of the well and barrier, a high-quality multichannel filtering can be achieved. The calculation in the coupled double photonic quantum-wells shows that the coupling between the modes in the two wells weakens with the widening of the barrier thickness, and the mode splitting becomes smaller.