Year
Month

(Peer-Reviewed) Seeing at a distance with multicore fibers
Haogong Feng 冯浩宫 ¹, Xi Chen 陈曦 ¹, Runze Zhu 朱润泽 ¹, Yifeng Xiong 熊毅丰 ¹, Ye Chen 陈烨 ², Yanqing Lu 陆延青 ¹, Fei Xu 徐飞 ¹
¹ National Laboratory of Solid State Microstructures, College of Engineering and Applied Sciences, and Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China
中国 南京 南京大学现代工程与应用科学学院 固体微结构物理国家重点实验室 人工微结构科学与技术协同创新中心
² College of Physics, MIIT Key Laboratory of Aerospace Information Materials and Physics, State Key Laboratory of Mechanics and Control for Aerospace Structures, Nanjing University of Aeronautics and Astronautics, Nanjing 211106, China
中国 南京 南京航空航天大学物理学院 空天信息材料与物理工信部重点实验室 航空航天结构力学及控制全国重点实验室
Opto-Electronic Advances , 2024-06-05
https://doi.org/10.29026/oea.2024.230202
https://www.oejournal.org/article/doi/10.29026/oea.2024.230202
Abstract

Images and videos provide a wealth of information for people in production and life. Although most digital information is transmitted via optical fiber, the image acquisition and transmission processes still rely heavily on electronic circuits. The development of all-optical transmission networks and optical computing frameworks has pointed to the direction for the next generation of data transmission and information processing.

Here, we propose a high-speed, low-cost, multiplexed parallel and one-piece all-fiber architecture for image acquisition, encoding, and transmission, called the Multicore Fiber Acquisition and Transmission Image System (MFAT). Based on different spatial and modal channels of the multicore fiber, fiber-coupled self-encoding, and digital aperture decoding technology, scenes can be observed directly from up to 1 km away. The expansion of capacity provides the possibility of parallel coded transmission of multimodal high-quality data.

MFAT requires no additional signal transmitting and receiving equipment. The all-fiber processing saves the time traditionally spent on signal conversion and image pre-processing (compression, encoding, and modulation). Additionally, it provides an effective solution for 2D information acquisition and transmission tasks in extreme environments such as high temperatures and electromagnetic interference.
Seeing at a distance with multicore fibers_1
Seeing at a distance with multicore fibers_2
Seeing at a distance with multicore fibers_3
Seeing at a distance with multicore fibers_4
  • High-speed and large-capacity visible light communication for 6G: advances and perspectives
  • Nan Chi, Zhilan Lu, Fujie Li, Haoyu Zhang, Yunkai Wang, Xinyi Liu, Zhiwu Chen, Zhe Feng, Zhuoran Hu, Zhixue He, Ziwei Li, Chao Shen, Junwen Zhang
  • Opto-Electronic Technology
  • 2026-03-20
  • Multi-dimensional photodetection: from material intrinsic properties and metasurface engineering to silicon photonic integration
  • Wenqi Liu, Zilan Tang, Qingzhao Hua, Liang Liu, Xiaoxia Wang, Anlian Pan
  • Opto-Electronic Technology
  • 2026-03-20
  • Holotomography-driven learning unlocks in-silico staining of single cells in flow cytometry by avoiding fluorescence co-registration
  • Daniele Pirone, Giusy Giugliano, Michela Schiavo, Annalaura Montella, Martina Mugnano, Vincenza Cerbone, Maddalena Raia, Giulia Scalia Ivana Kurelac, Diego Luis Medina, Lisa Miccio Mario Capasso, Achille Iolascon, Pasquale Memmolo, Pietro Ferraro
  • Opto-Electronic Science
  • 2026-02-25
  • Narrow beam and low-sidelobe electro-optic beam steering on thin-film lithium niobate optical phased array
  • Yang Li, Shiyao Deng, Xiao Ma, Ziliang Fang, Shufeng Li Weikang Xu, Fangheng Fu, Xu Ouyang, Yuming Wei, Tiefeng Yang Heyuan Guan, Huihui Lu
  • Opto-Electronic Science
  • 2026-02-25
  • Scene-level passive polarization 3D imaging
  • Xin Wang, Pingli Han, Xiyuan Luo, Qianqian Liu, Tong Zhang, Xue Dong, Meng Xiang, Jinpeng Liu, Yanyan Liu, Fei Liu
  • Opto-Electronic Advances
  • 2026-02-12
  • Modelling-guided inverse design strategy for semitransparent perovskite photovoltaics with customized colors
  • Seok-Beom Seo, Rira Kang, Eun-Joo Lee, So-Yeon Ju, Min Jae Lee, Byunghong Lee, Sun-Kyung Kim
  • Opto-Electronic Advances
  • 2026-02-12
  • A hybrid integrated high-precision tunable semiconductor laser
  • Yiran Zhu, Botao Fu, Zhiwei Fang, Qiyue Hu, Jianping Yu, Yunpeng Song, Yu Ma, Min Wang, Kunpeng Jia, Zhenda Xie, Ya Cheng
  • Opto-Electronic Advances
  • 2026-02-12
  • Soft chiral superstructure enabled dynamic polychromatic holography
  • Chun-Ting Xu, Lu Li, Quan-Ming Chen, Guang-Yao Wang, Wei Hu
  • Opto-Electronic Advances
  • 2026-02-12
  • Millisecond-level electrically switchable metalens for adaptive rotational depth mapping and diffraction-limited imaging
  • Yeseul Kim, Jihae Lee, Won-Sik Kim, Hyeonsu Heo, Dongmin Jeon, Beomha Yang, Xiaotong Li, Harit Keawmuang, Shiqi Hu, Young-Ki Kim, Trevon Badloe, Junsuk Rho
  • Opto-Electronic Advances
  • 2026-02-12
  • Ambient-energy-driven space-time-coding metasurface for space-frequency-division multiplexing wireless communications
  • Han Wei Tian, Chao Song, Dong Jie Wang, Qian Zhu, Tie Jun Cui, Wei Xiang Jiang
  • Opto-Electronic Advances
  • 2026-02-12
  • Ultra-sensitive multi-band infrared polarization photodetector based on 1T'-MoTe₂/2H-MoTe₂ van der Waals heterostructure
  • Yuting Pan, Lidan Lu, Bofei Zhu, Chunhua An, Jing Yu, Guanghui Ren, Jian Zhen Ou, Mingli Dong, Zheng You, Lianqing Zhu
  • Opto-Electronic Advances
  • 2026-02-09
  • Tunable compound eyes with coaxial lens-on-lens ommatidia for cooperative bi-focal imaging
  • Zhi-Juan Sun, Wei-Jian Zhong, Qing Cai, Yi-Fan Lu, Chang-Xu Li, Dong-Dong Han, Yong-Lai Zhang
  • Opto-Electronic Advances
  • 2026-02-09



    • Multifunctional mixed analog/digital signal processor based on integrated photonics        Paving continuous heat dissipation pathways for quantum dots in polymer with orange-inspired radially aligned UHMWPE fibers
    About
    |
    Contact
    |
    Copyright © PubCard
    Twitter
    Facebook
    LinkedIn
    Zhihu
    Weibo