富氮硅平台上的光子晶体波导

Photonic crystal waveguides on silicon rich nitride platform.

作者信息

Debnath Kapil, Bucio Thalia Dominguez, Al-Attili Abdelrahman, Khokhar Ali Z, Saito Shinichi, Gardes Frederic Y

出版信息

Opt Express. 2017 Feb 20;25(4):3214-3221. doi: 10.1364/OE.25.003214.

DOI:10.1364/OE.25.003214

Abstract

We demonstrate design, fabrication, and characterization of two-dimensional photonic crystal (PhC) waveguides on a suspended silicon rich nitride (SRN) platform for applications at telecom wavelengths. Simulation results suggest that a 210 nm photonic band gap can be achieved in such PhC structures. We also developed a fabrication process to realize suspended PhC waveguides with a transmission bandwidth of 20 nm for a W1 PhC waveguide and over 70 nm for a W0.7 PhC waveguide. Using the Fabry-Pérot oscillations of the transmission spectrum we estimated a group index of over 110 for W1 PhC waveguides. For a W1 waveguide we estimated a propagation loss of 53 dB/cm for a group index of 37 and for a W0.7 waveguide the lowest propagation was 4.6 dB/cm.

摘要

我们展示了在用于电信波长应用的悬浮富硅氮化物（SRN）平台上二维光子晶体（PhC）波导的设计、制造和表征。模拟结果表明，在这种PhC结构中可以实现210nm的光子带隙。我们还开发了一种制造工艺，以实现悬浮的PhC波导，其中W1 PhC波导的传输带宽为20nm，W0.7 PhC波导的传输带宽超过70nm。利用传输光谱的法布里-珀罗振荡，我们估计W1 PhC波导的群折射率超过110。对于W1波导，在群折射率为37时，我们估计其传播损耗为53dB/cm，对于W0.7波导，最低传播损耗为4.6dB/cm。