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Adjoint method-based Fourier neural operator surrogate solver for wavefront shaping in tunable metasurfacesopen access

Authors
Kang, ChanikSeo, JoonhyukJang, IkbeomChung, Haejun
Issue Date
Jan-2025
Publisher
CELL PRESS
Keywords
Computer science; Optics; Physics
Citation
iScience, v.28, no.1, pp 1 - 11
Pages
11
Indexed
SCIE
SCOPUS
Journal Title
iScience
Volume
28
Number
1
Start Page
1
End Page
11
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/206628
DOI
10.1016/j.isci.2024.111545
ISSN
2589-0042
2589-0042
Abstract
We present a Fourier neural operator (FNO)-based surrogate solver for the efficient optimization of wavefronts in tunable metasurface controls. Existing methods, including the Gerchberg-Saxton algorithm and the adjoint optimization, are often computationally demanding due to their iterative processes, which require numerical simulations at each step. Our surrogate solver overcomes this limitation by providing highly accurate gradient estimations with respect to changes in tunable meta-atoms without the need for direct simulations. This approach substantially reduces both computational time and cost in wavefront shaping applications. The proposed solver demonstrates a residual of 0.02 when compared to the normalized figure of merit achieved by the optimized structure obtained through the adjoint method, and its inference time is 887.5 times faster than conventional simulation-based methods. This advancement enables ultra-fast wavefront shaping across a range of applications, including optical wavefront shaping, reconfigurable intelligent metasurfaces, and biomedical imaging.
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