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Dispersion engineering with inverse design (Conference Presentation) 基于逆设计的色散工程(会议报告)
Integrated Optics: Devices, Materials, and Technologies XXIV
Pub Date : 2019-09-09 DOI: 10.1117/12.2528912
D. Vercruysse, Rahul Trivedi, L. Su, N. Sapra, J. Vučković
Slow light photonic crystal waveguides (PCW) are a promising tool for optical signal processing and integrated optical devices that require strong light-matter interactions. However, PCWs typically have a large group velocity dispersion (GVD) and low coupling efficiency. In this work, we use inverse design methods to design slow light PWCs with a large group index-bandwidth product (GBP) along with efficient mode converters to couple PCW modes to ridge waveguides and free space. Inverse design is shown to be an effective method for these problems and an essential design method for future PCW applications.
慢光光子晶体波导(PCW)是一种很有前途的光信号处理工具和需要强光-物质相互作用的集成光学器件。然而,PCWs通常具有较大的群速度色散(GVD)和较低的耦合效率。在这项工作中,我们使用逆设计方法来设计具有大群指数带宽积(GBP)以及有效模式转换器的慢光PWCs,将PCW模式耦合到脊波导和自由空间。反设计是解决这些问题的有效方法,也是今后PCW应用的基本设计方法。
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