Diffractive optical elements 75 years on: from micro-optics to metasurfaces

Zhang, Qiang; He, Zehao; Xie, Zhenwei; Tan, Qiaofeng; Sheng, Yunlong; Jin, Guofan; Cao, Liangcai; Yuan, Xiaocong

doi:10.3788/pi.2023.r09

Cited by 22 publications

(1 citation statement)

References 427 publications

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“…Figure 19 illustrates further advanced applications of dielectric metasurfaces. More detailed reviews about the applications of metasurfaces across various domains can be found in previous literature [326][327][328][329] . This miniaturization advantage of meta-devices has led to notable advancements in various applications, including aerial [330] , terrestrial [331] , and underwater [318,332] environments, particularly benefiting modern consumer optoelectronic devices such as augmented reality (AR), virtual reality (VR), and unmanned aerial vehicles [333] , among others.…”

Section: Perspective and Outlookmentioning

confidence: 99%

Advanced manufacturing of dielectric meta-devices

Yang,

Zhou,

Tsai

et al. 2024

Photonics Insights

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Metasurfaces, composed of two-dimensional nanostructures, exhibit remarkable capabilities in shaping wavefronts, encompassing phase, amplitude, and polarization. This unique proficiency heralds a transformative paradigm shift in the domain of next-generation optics and photonics, culminating in the development of flat and ultrathin optical devices. Particularly noteworthy is the all-dielectric-based metasurface, leveraging materials such as titanium dioxide, silicon, gallium arsenide, and silicon nitride, which finds extensive application in the design and implementation of high-performance optical devices, owing to its notable advantages, including a high refractive index, low ohmic loss, and cost-effectiveness. Furthermore, the remarkable growth in nanofabrication technologies allows for the exploration of new methods in metasurface fabrication, especially through wafer-scale nanofabrication technologies, thereby facilitating the realization of commercial applications for metasurfaces. This review provides a comprehensive overview of the latest advancements in state-of-the-art fabrication technologies in dielectric metasurface areas. These technologies, including standard nanolithography [e.g., electron beam lithography (EBL) and focused ion beam (FIB) lithography], advanced nanolithography (e.g., grayscale and scanning probe lithography), and large-scale nanolithography [e.g., nanoimprint and deep ultraviolet (DUV) lithography], are utilized to fabricate highresolution, high-aspect-ratio, flexible, multilayer, slanted, and wafer-scale all-dielectric metasurfaces with intricate nanostructures. Ultimately, we conclude with a perspective on current cutting-edge nanofabrication technologies.

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Section: Perspective and Outlookmentioning

confidence: 99%

Advanced manufacturing of dielectric meta-devices

Yang,

Zhou,

Tsai

et al. 2024

Photonics Insights

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Advancements and Applications of Diffractive Optical Elements in Contemporary Optics: A Comprehensive Overview

Khonina,

Kazanskiy,

Skidanov

et al. 2024

Adv Materials Technologies

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Diffractive optical elements (DOEs) represent a revolutionary advancement in modern optics, offering unparalleled versatility and efficiency in various applications. Their significance lies in their ability to manipulate light waves with intricate patterns, enabling functionalities beyond what traditional refractive optics can achieve. DOEs find widespread use in fields such as laser beam shaping, holography, optical communications, and imaging systems. By precisely controlling the phase and amplitude of light, DOEs can generate complex optical structures, correct aberrations, and enhance the performance of optical systems. Moreover, their compact size, lightweight nature, and potential for mass production make them indispensable in designing compact and efficient optical devices for diverse industrial and scientific applications. From improving the performance of laser systems to enabling innovative display technologies, DOEs continue to drive advancements in modern optics, promising even more exciting possibilities in the future. In this review, the critical importance of DOEs is illuminated and explore their profound implications in the contemporary era.

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Multifunctional Metasurface: Holography and Spot Cloud Projection

Guo,

Shao,

Zhan

et al. 2024

Advanced Optical Materials

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Multifunctionality, integration, and miniaturization are the mainstream trends in modern device development. However, optical display and depth perception, essential for innovative applications like intelligent driving and mixed reality, are typically achieved separately in complex and bulky optical systems. Metasurfaces, ultrathin artificial optical surfaces with strong light–matter interaction capabilities at the nanoscale, offer a versatile platform for creating multifunctional, highly integrated, and miniaturized devices by fully exploring spatial multiplexing and utilizing variables like location, polarization, and frequency. In this study, a multifunctional metasurface that integrates meta‐holography with Dammann gratings is presented. By engineering the phase profile, the device can display specific holographic images in the Fresnel region while simultaneously producing a high‐density spot cloud with over 37 000 spots covering the entire half space. As a proof‐of‐concept, a projection and reconstruction experiment is performed to elaborate its potential for retrieving three‐dimensional (3D) spatial information of real scenarios. The simultaneous generation of display and point cloud holds significant promise for applications in cutting‐edge imaging technologies such as intelligent driving and robot vision.

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Diffractive optical elements 75 years on: from micro-optics to metasurfaces

Cited by 22 publications

References 427 publications

Advanced manufacturing of dielectric meta-devices

Advanced manufacturing of dielectric meta-devices

Advancements and Applications of Diffractive Optical Elements in Contemporary Optics: A Comprehensive Overview

Multifunctional Metasurface: Holography and Spot Cloud Projection

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