(Peer-Reviewed) Metasurface-based nanoprinting: principle, design and advances
Rao Fu 付娆 ¹, Kuixian Chen 陈奎先 ¹, Zile Li 李子乐 ¹ ², Shaohua Yu 余少华 ², Guoxing Zheng 郑国兴 ¹ ² ³ ⁴
¹ School of Electronic Information and School of Microelectronics, Wuhan University, Wuhan 430072, China
中国 武汉 武汉大学 电子信息学院 微电子学院
² Peng Cheng Laboratory, Shenzhen 518055, China
中国 深圳 鹏城实验室
³ Wuhan Institute of Quantum Technology, Wuhan 430206, China
中国 武汉 武汉量子技术研究院
⁴ Hubei Luojia Laboratory, Wuhan 430079, China
中国 武汉 湖北珞珈实验室
Opto-Electronic Science, 2022-10-28
Abstract
Metasurface-based nanoprinting (meta-nanoprinting) has fully demonstrated its advantages in ultrahigh-density grayscale/color image recording and display. A typical meta-nanoprinting device usually has image resolutions reaching 80 k dots per inch (dpi), far exceeding conventional technology such as gravure printing (typ. 5 k dpi). Besides, by fully exploiting the design degrees of freedom of nanostructured metasurfaces, meta-nanoprinting has been developed from previous single-channel to multiple-channels, to current multifunctional integration or even dynamic display.
In this review, we overview the development of meta-nanoprinting, including the physics of nanoprinting to manipulate optical amplitude and spectrum, single-functional meta-nanoprinting, multichannel meta-nanoprinting, dynamic meta-nanoprinting and multifunctional metasurface integrating nanoprinting with holography or metalens, etc.
Applications of meta-nanoprinting such as image display, vortex beam generation, information decoding and hiding, information encryption, high-density optical storage and optical anti-counterfeiting have also been discussed. Finally, we conclude the opportunities and challenges/perspectives in this rapidly developing research field of meta-nanoprinting.
Polariton lasing in Mie-resonant perovskite nanocavity
Mikhail A. Masharin, Daria Khmelevskaia, Valeriy I. Kondratiev, Daria I. Markina, Anton D. Utyushev, Dmitriy M. Dolgintsev, Alexey D. Dmitriev, Vanik A. Shahnazaryan, Anatoly P. Pushkarev, Furkan Isik, Ivan V. Iorsh, Ivan A. Shelykh, Hilmi V. Demir, Anton K. Samusev, Sergey V. Makarov
Opto-Electronic Advances
2024-04-25