Presentation
18 June 2024 Optimizing the trajectories of freeform waveguides using a modal theory
Author Affiliations +
Abstract
Freeform dielectric waveguides connect optical chips made of different materials in fully integrated photonic devices. With a spatial extent in the order of hundred micrometers, they constitute a computational challenge and make Maxwell full-wave solvers unhandy for the accelerated design. Therefore, we need tools for the fast prediction of waveguide transmission to enable the rapid optimization of waveguide trajectories. Previously developed methods relied on the assumption that only a fundamental mode propagates in the waveguide. However, the propagation of higher-order modes is not just unavoidable due to the geometry of the waveguides but also, sometimes, beneficial as it increases the number of channels to transmit information. We present approximation methods for the fast calculation of transmission that accommodates the presence of higher-order waveguide modes. We also show the application of the approximation methods to optimize waveguide trajectories given their input and output ports, and the obstacles to be avoided.
Conference Presentation
© (2024) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Maria Paszkiewicz-Idzik, Mariia Sukhova, Willy Dörfler, and Carsten Rockstuhl "Optimizing the trajectories of freeform waveguides using a modal theory", Proc. SPIE PC13023, Computational Optics 2024, PC1302305 (18 June 2024); https://doi.org/10.1117/12.3014421
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KEYWORDS
Waveguides

Wave propagation

Matrices

Design and modelling

Dielectrics

Freeform optics

Integrated optics

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