Physics-model-based neural networks for inverse design of binary phase planar diffractive lenses

Author:

He Jianmin,Guo Zhenghao,Zhang Yongying,Lu Yiyang,Wen Feng1,Da Haixia2,Zhou Guofu,Yuan DongORCID,Ye HuapengORCID

Affiliation:

1. Xi’an Jiaotong University

2. Nanjing University of Posts and Telecommunications

Abstract

The inverse design approach has enabled the customized design of photonic devices with engineered functionalities through adopting various optimization algorithms. However, conventional optimization algorithms for inverse design encounter difficulties in multi-constrained problems due to the substantial time consumed in the random searching process. Here, we report an efficient inverse design method, based on physics-model-based neural networks (PMNNs) and Rayleigh–Sommerfeld diffraction theory, for engineering the focusing behavior of binary phase planar diffractive lenses (BPPDLs). We adopt the proposed PMNN to design BPPDLs with designable functionalities, including realizing a single focal spot, multiple foci, and an optical needle with size approaching the diffraction limit. We show that the time for designing single device is dramatically reduced to several minutes. This study provides an efficient inverse method for designing photonic devices with customized functionalities, overcoming the challenges based on traditional data-driven deep learning.

Funder

Science and Technology Program of Guangzhou

Special Program on Key Fields for Colleges and Universities of Guangdong Province

Natural Science Foundation of Guangdong Province

National Natural Science Foundation of China

111 Project

Publisher

Optica Publishing Group

Subject

Atomic and Molecular Physics, and Optics

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