光子晶体中电磁波引导与弯曲的实验演示

Experimental demonstration of guiding and bending of electromagnetic waves in a photonic crystal.

作者信息

Lin SY, Chow E, Hietala V, Villeneuve PR, Joannopoulos JD

机构信息

S.-Y. Lin, E. Chow, V. Hietala, Sandia National Laboratories, Post Office Box 5800, Albuquerque, NM 87185, USA. P. R. Velleneuve and J. D. Johannopoulos, Department of Physics, Massachusetts Institute of Technology, Cambridge, MA 02139, USA.

出版信息

Science. 1998 Oct 9;282(5387):274-6. doi: 10.1126/science.282.5387.274.

DOI:10.1126/science.282.5387.274

PMID:9765148

Abstract

The routing and interconnection of optical signals through narrow channels and around sharp corners are important for large-scale all-optical circuit applications. A recent computational result suggests that photonic crystals may offer a novel way of achieving this goal by providing a mechanism for guiding light that is fundamentally different from traditional index guiding. Waveguiding in a photonic crystal and near 100 percent transmission of electromagnetic waves around sharp 90 degree corners were observed experimentally. Bending radii were made smaller than one wavelength.

摘要

通过狭窄通道并绕过急转弯处来实现光信号的路由和互连，对于大规模全光电路应用而言至关重要。最近的一项计算结果表明，光子晶体可能提供一种实现这一目标的新方法，即通过提供一种与传统折射率引导截然不同的光引导机制。实验观察到了光子晶体中的波导现象以及电磁波在90度急转弯处实现近100%的传输。弯曲半径被制作得小于一个波长。