4.7 Article

Design of embedded metamaterial solar absorber based on genetic algorithm

Journal

RESULTS IN PHYSICS
Volume 50, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.rinp.2023.106559

Keywords

Solar energy; Broadband absorption; Surface plasmon; Genetic algorithm

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To effectively collect solar energy, a metamaterial solar absorber with an embedded structure stacked with Ti and SiO2 is designed. The embedded structure enhances the magnetic and electric fields to improve absorption rate. Absorption rate is calculated using the finite difference time domain method and the absorber's parameters are optimized using genetic algorithm. Results show that the optimized absorber has absorption rates over 95% in the 300-2500 nm range, with an average absorption rate of 98.7%. The absorber is polarization independent and maintains an average absorption rate above 95% at a 60 degree oblique incidence angle. Perfect absorbers in the solar spectral range have significant value in solar energy harvesting and information detection.
To effectively collect the solar energy, a metamaterial solar absorber operating in the UV to NIR wavelength range is designed, which consists of an embedded structure stacked with Ti and SiO2. The embedded structure can enhance the magnetic and electric fields to improve the absorption rate. However, the parameter space of the embedded structure is very huge to increase the optimization search time. Therefore, the absorption rate is calculated by the finite difference time domain method and the parameters of the absorber are optimized by genetic algorithm. The results show that the absorption rates of the optimized absorber are all over 95% in the 300-2500 nm and the average absorption rate is 98.7%, and the absorber is of polarization independence and the average absorption rate remains above 95% at an oblique incidence angle of 60 degrees. By analyzing the electromagnetic field distribution of the absorber at the resonance wavelength, it can be concluded that the high absorption characteristics in the wideband are mainly achieved by the combined effects of local surface plasmon resonance, electric dipole resonance, propagating surface plasmon resonance and Fabry-Perot cavity resonance. Perfect absorber in the solar spectral range have significant value in fields such as solar energy harvesting and information detection.

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