Institute of Applied Physics, Friedrich-Schiller-Universität Jena, Max-Wien-Platz 1, 07743 Jena, Germany.
Sci Rep. 2011;1:94. doi: 10.1038/srep00094. Epub 2011 Sep 15.
The ability to efficiently transmit and rapidly process huge amounts of data has become almost indispensable to our daily lives. It turned out that all-optical networks provide a very promising platform to deal with this task. Within such networks opto-optical switches, where light is directed by light, are a crucial building block for an effective operation. In this article, we present an experimental analysis of the routing and switching behaviour of light in two-dimensional evanescently coupled waveguide arrays of Y- and T-junction geometries directly inscribed into fused silica using ultrashort laser pulses. These systems have the fundamental advantage of supporting three-dimensional network topologies, thereby breaking the limitations on complexity associated with planar structures while maintaining a high dirigibility of the light. Our results show how such arrays can be used to control the flow of optical signals within integrated photonic circuits.
高效传输和快速处理大量数据的能力已经成为我们日常生活中几乎不可或缺的一部分。事实证明,全光网络为解决这一任务提供了一个非常有前途的平台。在这样的网络中,光导光开关,即通过光来引导光的器件,是有效运作的关键组成部分。在本文中,我们使用超短激光脉冲直接在熔融石英中写入的 Y 型和 T 型结二维消逝场耦合波导阵列,对光在其中的路由和开关行为进行了实验分析。这些系统具有支持三维网络拓扑结构的基本优势,从而打破了与平面结构相关的复杂性限制,同时保持了光的高导向性。我们的研究结果表明,这样的阵列可以用于控制集成光子电路中光信号的流动。