High-performance hybrid time/frequency-domain topology optimization for large-scale photonics inverse design
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We present a photonics topology optimization (TO) package capable of addressing a wide range of practical photonics design problems, incorporating robustness and manufacturing constraints, which can scale to large devices and massive parallelism. We employ a hybrid algorithm that builds on a mature time-domain (FDTD) package Meep to simultaneously solve multiple frequency-domain TO problems over a broad bandwidth. This time/frequency-domain approach is enhanced by new filter-design sources for the gradient calculation and new material-interpolation methods for optimizing dispersive media, as well as by multiple forms of computational parallelism. The package is available as free/open-source software with extensive tutorials and multi-platform support.
Date issued
2022-01-28Department
Massachusetts Institute of Technology. Department of MathematicsJournal
Optics Express
Publisher
The Optical Society
Citation
Alec M. Hammond, Ardavan Oskooi, Mo Chen, Zin Lin, Steven G. Johnson, and Stephen E. Ralph, "High-performance hybrid time/frequency-domain topology optimization for large-scale photonics inverse design," Opt. Express 30, 4467-4491 (2022)
Version: Final published version
ISSN
1094-4087
Keywords
Atomic and Molecular Physics, and Optics