Slow light propagation in stacked complementary metasurfaces at microwave frequencies

M. Aznabet, M. Navarro, M. Beruete, F. Falcone, O. Mrabet, M. Essaaidi, M. Sorolla
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Abstract

The possibility to slow down the light is one of the hot topics of modern optics nowadays. This phenomenon holds great promise for m any applications in compact optical pr ocessing devices. Examples including ultracompact optical modulators and switches, enhanced optical nonlinearities, optical buffering and optical memory for quantum computers [1,2]. C onventional schemes to sl ow down the light have been acco mplished by using disordered media [1], electromagnetic induced transparency [3], Bose-Einstein condensates [4] and on the phenomenon of light interference in a sequence of coupled resonators [5].
微波频率下叠加互补超表面中的慢光传播
使光变慢的可能性是当今现代光学的热点问题之一。这一现象在紧凑型光学处理设备的任何应用中都具有很大的前景。例子包括超紧凑光调制器和开关、增强的光学非线性、用于量子计算机的光缓冲和光存储器[1,2]。利用无序介质[1]、电磁感应透明[3]、玻色-爱因斯坦凝聚[4]和一系列耦合谐振器中的光干涉现象[5],已经完成了常规的降光方案。
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