☆ 4.7 Article

A deep neural network for general scattering matrix

NANOPHOTONICS (2023)

相关参考文献

注意：仅列出部分参考文献，下载原文获取全部文献信息。

Article Chemistry, Multidisciplinary

Pushing the Limits of Functionality-Multiplexing Capability in Metasurface Design Based on Statistical Machine Learning

Wei Ma et al.

Summary: In this study, a new approach is proposed for the automatic design of multifunctional metasurfaces by embedding machine learning models in optimization loops. Unlike traditional methods, this end-to-end framework maximizes the design space and pushes the multifunctional design capacity to its limit, resulting in experimentally demonstrated metasurface focusing lenses and holograms. The data-driven scheme shows superior capability in photonics design and has the potential to accelerate the development of complex devices and systems for optical display, communication, and computing.

ADVANCED MATERIALS (2022)

添加到收藏夹

Article Engineering, Electrical & Electronic

A programmable diffractive deep neural network based on a digital-coding metasurface array

Che Liu et al.

Summary: This article introduces a programmable diffractive deep neural network based on a multi-layer digital-coding metasurface array, which can be used for deep learning tasks in wave sensing and wireless communications.

NATURE ELECTRONICS (2022)

添加到收藏夹

Article Multidisciplinary Sciences

Dynamic recognition and mirage using neuro-metamaterials

Chao Qian et al.

Summary: This paper introduces the concept of neuro-metamaterials, which enable a dynamic entirely-optical object recognition and mirage. The experiments demonstrate that this technology can perceive the postures of rabbits at the speed of light and create dynamic optical mirages using holographic videos.

NATURE COMMUNICATIONS (2022)

添加到收藏夹

Article Multidisciplinary Sciences

Homeostatic neuro-metasurfaces for dynamic wireless channel management

Zhixiang Fan et al.

Summary: This study introduces the concept of homeostatic neuro-metasurfaces for automatic and monolithic management of dynamic wireless channels. Through the development of a flexible deep learning paradigm, the accuracy of global inverse design for large-scale metasurfaces exceeds 90%.

SCIENCE ADVANCES (2022)

添加到收藏夹

Article Engineering, Electrical & Electronic

Physics Embedded Deep Neural Network for Solving Full-Wave Inverse Scattering Problems

Rui Guo et al.

Summary: In this study, an iterative deep neural network is designed to solve the full-wave inverse scattering problems in 2-D. By embedding forward modeling neural networks that predict the scattered field in an inversion neural network, the proposed method achieves high accuracy and efficiency in model prediction and super-resolution reconstruction.

IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION (2022)

添加到收藏夹

Review Optics

Deep learning for the design of photonic structures

Wei Ma et al.

Summary: Innovative approaches and tools, particularly deep learning, are shaping the field of photonics by offering efficient means to design photonic structures and providing data-driven solutions complementary to traditional physics-based methods. The progress in deep-learning-based photonic design is promising, with various model architectures showing potential applications in specific photonic tasks.

NATURE PHOTONICS (2021)

添加到收藏夹

Article Engineering, Electrical & Electronic

On Phase Information for Deep Neural Networks to Solve Full-Wave Nonlinear Inverse Scattering Problems

Xiao-Min Pan et al.

Summary: The study investigates the role of phase information in deep neural networks for solving electromagnetic inverse scattering problems. A feedforward neural network model with complex-valued data stream and a corresponding training algorithm are proposed to achieve CV convolutional neural networks. Numerical examples are used to demonstrate the impact of phase information on generalization capability and convergence speed in DNNs.

IEEE ANTENNAS AND WIRELESS PROPAGATION LETTERS (2021)

添加到收藏夹

Review Nanoscience & Nanotechnology

Deep neural networks for the evaluation and design of photonic devices

Jiaqi Jiang et al.

Summary: This review discusses the importance of neural networks in photonic-system modelling and highlights the functionalities that deep neural networks can achieve, as well as the suitability of photonic systems for machine learning. Additionally, the application of fundamental data-science concepts within the context of photonics is explored.

NATURE REVIEWS MATERIALS (2021)

添加到收藏夹

Article Engineering, Electrical & Electronic

Deep Learning-Based Inverse Scattering With Structural Similarity Loss Functions

Youyou Huang et al.

Summary: This article introduces a structural similarity (SSIM) loss function combined with a mean squared error (MSE) loss function for reconstructing dielectric targets in a DL-IS framework. Numerical tests show that this new perceptually-inspired loss function can effectively enhance imaging quality and model generalization capability.

IEEE SENSORS JOURNAL (2021)

添加到收藏夹

Article Optics

Deep-learning-enabled inverse engineering of multi-wavelength invisibility-to-superscattering switching with phase-change materials

Jie Luo et al.

Summary: The inverse design of nanoparticles is crucial for realizing cloaking, sensing, and functional devices. Traditional design processes are complex, but utilizing a well-trained deep-learning neural network can efficiently handle these issues, predict and inversely design the structure and material parameters of nanoparticles.

OPTICS EXPRESS (2021)

添加到收藏夹

Review Optics

Interfacing photonics with artificial intelligence: an innovative design strategy for photonic structures and devices based on artificial neural networks

Yihao Xu et al.

Summary: Photonics has greatly influenced research and applications, with artificial neural networks providing a potential solution to simplify complex design processes and enhance efficiency and accuracy.

PHOTONICS RESEARCH (2021)

添加到收藏夹

Review Optics

Deep learning in nano-photonics: inverse design and beyond

Peter R. Wiecha et al.

Summary: Deep learning in nano-photonics is mostly discussed in terms of its potential for inverse design of photonic devices or nano-structures. While specific, drawbacks of the approaches require critical evaluation. Additionally, deep learning has evolved as a tool for a variety of applications such as accelerating photonics simulations, data reconstruction, imaging, and knowledge discovery.

PHOTONICS RESEARCH (2021)

添加到收藏夹

Article Optics

Real-time deep learning design tool for far-field radiation profile

Jinran Qie et al.

Summary: The connection between Maxwell's equations and artificial neural networks has revolutionized nanophotonic design, providing efficiency and convenience. However, transitioning from conventional design methods to machine-learning tools can be challenging due to a steep learning curve. The web-based design tool with a trained deep neural network offers a user-friendly and efficient alternative to traditional full-wave simulations.

PHOTONICS RESEARCH (2021)

添加到收藏夹

Article Computer Science, Information Systems

Complex-Valued Pix2pix-Deep Neural Network for Nonlinear Electromagnetic Inverse Scattering

Liang Guo et al.

Summary: Complex-Valued Pix2pix is a technique that applies a Generative Adversarial Network to the electromagnetic inverse scattering problem, providing a more effective solution for nonlinear inverse scattering problems.

ELECTRONICS (2021)

添加到收藏夹

Article Optics

Performing optical logic operations by a diffractive neural network

Chao Qian et al.

LIGHT-SCIENCE & APPLICATIONS (2020)

添加到收藏夹

Article Optics

Physics-informed neural networks for inverse problems in nano-optics and metamaterials

Yuyao Chen et al.

OPTICS EXPRESS (2020)

添加到收藏夹

Article Engineering, Electrical & Electronic

Enhanced Deep Learning Approach Based on the Deep Convolutional Encoder-Decoder Architecture for Electromagnetic Inverse Scattering Problems

He Ming Yao et al.

IEEE ANTENNAS AND WIRELESS PROPAGATION LETTERS (2020)

添加到收藏夹

Article Nanoscience & Nanotechnology

Electromagnetic Duality Protected Scattering Properties of Nonmagnetic Particles

Qingdong Yang et al.

ACS PHOTONICS (2020)

添加到收藏夹

Article Optics

Line Singularities and Hopf Indices of Electromagnetic Multipoles

Weijin Chen et al.

LASER & PHOTONICS REVIEWS (2020)

添加到收藏夹

Article Physics, Applied

Machine Prediction of Topological Transitions in Photonic Crystals

Bei Wu et al.

PHYSICAL REVIEW APPLIED (2020)

添加到收藏夹

Article Optics

Non-Hermitian photonics for coherent perfect absorption, invisibility, and lasing with different orbital angular momenta

Ping Bai et al.

OPTICS LETTERS (2020)

添加到收藏夹

Article Materials Science, Multidisciplinary

Scattering invariance for arbitrary polarizations protected by joint spatial-duality symmetries

Qingdong Yang et al.

PHYSICAL REVIEW B (2020)

添加到收藏夹

Article Engineering, Electrical & Electronic

Deep Learning-Based Inversion Methods for Solving Inverse Scattering Problems With Phaseless Data

Kuiwen Xu et al.

IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION (2020)

添加到收藏夹

Article Engineering, Electrical & Electronic

Embedding Deep Learning in Inverse Scattering Problems

Yash Sanghvi et al.

IEEE TRANSACTIONS ON COMPUTATIONAL IMAGING (2020)

添加到收藏夹

Article Computer Science, Information Systems

Deep Physical Informed Neural Networks for Metamaterial Design

Zhiwei Fang et al.

IEEE ACCESS (2020)

添加到收藏夹

Review Nanoscience & Nanotechnology

Deep learning enabled inverse design in nanophotonics

Sunae So et al.

NANOPHOTONICS (2020)

添加到收藏夹

Review Chemistry, Multidisciplinary

Deep learning: a new tool for photonic nanostructure design

Ravi S. Hegde

NANOSCALE ADVANCES (2020)

添加到收藏夹

Article Geochemistry & Geophysics

Deep-Learning Schemes for Full-Wave Nonlinear Inverse Scattering Problems

Zhun Wei et al.

IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING (2019)

添加到收藏夹

Article Engineering, Electrical & Electronic

DeepNIS: Deep Neural Network for Nonlinear Electromagnetic Inverse Scattering

Lianlin Li et al.

IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION (2019)

添加到收藏夹

Article Nanoscience & Nanotechnology

Simultaneous Inverse Design of Materials and Structures via Deep Learning: Demonstration of Dipole Resonance Engineering Using Core-Shell Nanoparticles

Sunae So et al.

ACS APPLIED MATERIALS & INTERFACES (2019)

添加到收藏夹

Article Chemistry, Multidisciplinary

Probabilistic Representation and Inverse Design of Metamaterials Based on a Deep Generative Model with Semi-Supervised Learning Strategy

Wei Ma et al.

ADVANCED MATERIALS (2019)

添加到收藏夹

Article Engineering, Electrical & Electronic

Physics-Inspired Convolutional Neural Network for Solving Full-Wave Inverse Scattering Problems

Zhun Wei et al.

IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION (2019)

添加到收藏夹

Article Engineering, Electrical & Electronic

Two-Step Enhanced Deep Learning Approach for Electromagnetic Inverse Scattering Problems

He Ming Yao et al.

IEEE ANTENNAS AND WIRELESS PROPAGATION LETTERS (2019)

添加到收藏夹

Article Physics, Applied

Superscattering of Sound by a Deep-Subwavelength Solid Mazelike Rod

Fengming Liu et al.

PHYSICAL REVIEW APPLIED (2019)

添加到收藏夹

Article Optics

Phase recovery and holographic image reconstruction using deep learning in neural networks

Yair Rivenson et al.

LIGHT-SCIENCE & APPLICATIONS (2018)

添加到收藏夹

Article Chemistry, Multidisciplinary

Deep-Learning-Enabled On-Demand Design of Chiral Metamaterials

Wei Ma et al.

ACS NANO (2018)

添加到收藏夹

Article Chemistry, Multidisciplinary

Generative Model for the Inverse Design of Metasurfaces

Zhaocheng Liu et al.

NANO LETTERS (2018)

添加到收藏夹

Article Multidisciplinary Sciences

All-optical machine learning using diffractive deep neural networks

Xing Lin et al.

SCIENCE (2018)

添加到收藏夹

Article Optics

Plasmonic nanostructure design and characterization via Deep Learning

Itzik Malkiel et al.

LIGHT-SCIENCE & APPLICATIONS (2018)

添加到收藏夹

Article Materials Science, Multidisciplinary

Realizing robust overlapped effect of multiple sound sources via anisotropic zero density metamaterials

Fengming Liu et al.

PHYSICAL REVIEW B (2018)

添加到收藏夹

Article Computer Science, Artificial Intelligence

Fully Convolutional Networks for Semantic Segmentation

Evan Shelhamer et al.

IEEE TRANSACTIONS ON PATTERN ANALYSIS AND MACHINE INTELLIGENCE (2017)

添加到收藏夹

Article Optics

Scattering Invisibility With Free-Space Field Enhancement of All-Dielectric Nanoparticles

Wei Liu et al.

LASER & PHOTONICS REVIEWS (2017)

添加到收藏夹

Article Physics, Multidisciplinary

Generalized Magnetic Mirrors

Wei Liu

PHYSICAL REVIEW LETTERS (2017)

添加到收藏夹

Article Optics

Superscattering pattern shaping for radially anisotropic nanowires

Wei Liu

PHYSICAL REVIEW A (2017)

添加到收藏夹

Article Physics, Multidisciplinary

Multi-channel coherent perfect absorbers

Ping Bai et al.

EPL (2016)

添加到收藏夹

Article Optics

Toroidal dipole-induced transparency in core-shell nanoparticles

Wei Liu et al.

LASER & PHOTONICS REVIEWS (2015)

添加到收藏夹

© Peeref 2019-2024. All rights reserved.