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啁啾亚波长纳米天线。

Frequency-chirped subwavelength nanoantennas.

机构信息

Research Laboratory of Electronics, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA.

出版信息

Opt Lett. 2012 Dec 1;37(23):4979-81. doi: 10.1364/OL.37.004979.

Abstract

Herein we propose, theoretically investigate, and numerically demonstrate the first use to our knowledge of frequency chirping to achieve broadband, efficient subwavelength vertical emission from a dielectric waveguide. We demonstrate this unique and effective approach in the telecom C band in a nanophotonic frequency-chirped dipole antenna. The structure utilizes a plasmonic antenna placed above an Si3N4 waveguide and a ground plane to enhance emission efficiency. Three-dimensional finite-difference time-domain simulations reveal up to 55% vertical emission efficiency, and a bandwidth of 500 nm is possible in a structure less than half a wavelength long. The design methodology and theoretical underpinnings of frequency-chirped nanophotonic antennas coupled to dielectric waveguides are presented.

摘要

在这里,我们提出了一种理论研究,并通过数值模拟证实了我们首次将频率啁啾应用于从介质波导实现宽带、高效亚波长垂直发射。我们在纳米光子学频率啁啾偶极天线的电信 C 波段展示了这种独特而有效的方法。该结构利用等离子体天线置于 Si3N4 波导和接地平面之上,以提高发射效率。三维有限差分时域模拟显示,垂直发射效率高达 55%,在长度小于半波长的结构中,带宽可达 500nm。本文提出了与介质波导耦合的频率啁啾纳米光子学天线的设计方法和理论基础。

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