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W3191464137 abstract "Metasurface has demonstrated potential and novel optical properties in previous research. The prevailing method of designing a macroscale metasurface is based on the local periodic approximation. Such a method relies on the pre-calculated data library, including phase delay and transmittance of the nanostructure, which is rigorously calculated by the electromagnetic simulation. However, it is usually time-consuming to design a complex metasurface such as broadband achromatic metalens due the required huge data library. This paper combined different numbers of nanofins and used deep neural networks to train our data library, and the well-trained model predicted approximately ten times more data points, which show a higher transmission for designing a broadband achromatic metalens. The results showed that the focusing efficiency of designed metalens using the augmented library is up to 45%, which is higher than that using the original library over the visible spectrum. We demonstrated that the proposed method is time-effective and accurate enough to design complex electromagnetic problems." @default.
W3191464137 created "2021-08-16" @default.
W3191464137 creator A5056719155 @default.
W3191464137 creator A5062829016 @default.
W3191464137 date "2021-07-30" @default.
W3191464137 modified "2023-10-12" @default.
W3191464137 title "Time-Effective Simulation Methodology for Broadband Achromatic Metalens Using Deep Neural Networks" @default.
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W3191464137 doi "https://doi.org/10.3390/nano11081966" @default.
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