Angle-Based Parametrization with Evolutionary Optimization for OESCL-Band Y-Junction Splitters

The design of passive photonic devices based on geometry optimization can lead to energy-efficient, small-footprint, and fabrication-ready geometries. In this work, we propose an angle-based parametrization method to optimize Y-junction splitters based on multimode interferometers. The selected figu...

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Bibliographic Details
Published in:Photonics 2023-02, Vol.10 (2), p.152
Main Authors: Prosopio-Galarza, Roy, García-Gonzales, J. Leonidas, Jara, Freddy, Armas-Alvarado, Maria, Gonzalez, Jorge, Rubio-Noriega, Ruth E.
Format: Article
Language:English
Subjects:
Algorithms
Comparative analysis
Covariance matrix
Design
Energy efficiency
Evolution
Fabrication
Figure of merit
Genetic algorithms
Geometry
Integrated circuits
integrated optics
Mathematical optimization
optical beam splitting
Optical communication
Optical fibers
Optimization algorithms
optimization methods
Parameterization
Particle swarm optimization
silicon on insulator
Transmittance
Y junctions
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Summary:The design of passive photonic devices based on geometry optimization can lead to energy-efficient, small-footprint, and fabrication-ready geometries. In this work, we propose an angle-based parametrization method to optimize Y-junction splitters based on multimode interferometers. The selected figure of merit was the transmittance in the SCL and OESCL optical fiber communication bands. The performances of three optimization methods were compared: (i) particle swarm optimization (PSO), (ii) genetic algorithm (GA), and (iii) the covariance matrix adaptation-evolution strategy (CMA-ES). The results show that CMA-ES parametrization produces similar transmittance results (≤1.5% of difference) to PSO in the first 40 generations. The CMA-ES results are identical in the SCL (1460–1625 nm) and OESCL (1260–1625 nm) bands, whereas the GA and PSO executions are slightly different in terms of the rate and similarity of the figure of merit.
ISSN:2304-6732
2304-6732
DOI:10.3390/photonics10020152