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Large-scale photonic inverse design: computational challenges and breakthroughsopen access

Authors
Kang, ChanikPark, ChaejinLee, MyunghooKang, JoonhoJang, Min SeokChung, Haejun
Issue Date
Aug-2024
Publisher
WALTER DE GRUYTER GMBH
Keywords
large-scale; inverse design; computational challenges
Citation
Nanophotonics, v.13, no.20, pp 3765 - 3792
Pages
28
Indexed
SCIE
SCOPUS
Journal Title
Nanophotonics
Volume
13
Number
20
Start Page
3765
End Page
3792
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/209603
DOI
10.1515/nanoph-2024-0127
ISSN
2192-8606
2192-8614
Abstract
Recent advancements in inverse design approaches, exemplified by their large-scale optimization of all geometrical degrees of freedom, have provided a significant paradigm shift in photonic design. However, these innovative strategies still require full-wave Maxwell solutions to compute the gradients concerning the desired figure of merit, imposing, prohibitive computational demands on conventional computing platforms. This review analyzes the computational challenges associated with the design of large-scale photonic structures. It delves into the adequacy of various electromagnetic solvers for large-scale designs, from conventional to neural network-based solvers, and discusses their suitability and limitations. Furthermore, this review evaluates the research on optimization techniques, analyzes their advantages and disadvantages in large-scale applications, and sheds light on cutting-edge studies that combine neural networks with inverse design for large-scale applications. Through this comprehensive examination, this review aims to provide insights into navigating the landscape of large-scale design and advocate for strategic advancements in optimization methods, solver selection, and the integration of neural networks to overcome computational barriers, thereby guiding future advancements in large-scale photonic design.
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