Burr Justin R, Gutman Nadav, de Sterke C Martijn, Vitebskiy Ilya, Reano Ronald M
Department of Electrical and Computer Engineering, The Ohio State University, Columbus, Ohio 43212, USA.
Opt Express. 2013 Apr 8;21(7):8736-45. doi: 10.1364/OE.21.008736.
Using full three-dimensional analysis we show that coupled periodic optical waveguides can exhibit a giant slow light resonance associated with a degenerate photonic band edge. We consider the silicon-on-insulator material system for implementation in silicon photonics at optical telecommunications wavelengths. The coupling of the resonance mode with the input light can be controlled continuously by varying the input power ratio and the phase difference between the two input arms. Near unity transmission efficiency through the degenerate band edge structure can be achieved, enabling exploitation of the advantages of the giant slow wave resonance.
通过全三维分析,我们表明耦合周期光波导可以表现出与简并光子带边相关的巨大慢光共振。我们考虑在光通信波长下用于硅光子学的绝缘体上硅材料系统。通过改变输入功率比和两个输入臂之间的相位差,可以连续控制共振模式与输入光的耦合。可以实现通过简并带边结构的近乎单位传输效率,从而能够利用巨大慢波共振的优势。