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All-Optical Discrete Illumination-Based Compressed Ultrafast Photography

超短脉冲 摄影 光学 材料科学 光电子学 压缩传感 计算机图形学(图像) 计算机科学 物理 激光器 人工智能 艺术 视觉艺术
作者
Long Cheng,Dalong Qi,Jiali Yao,Ning Xu,Cheng Zhou,Wenzhang Lin,Yu He,Zhen Pan,Hongmei Ma,Yunhua Yao,Lianzhong Deng,Yuecheng Shen,Zhenrong Sun,Shian Zhang
出处
期刊:ACS Photonics [American Chemical Society]
标识
DOI:10.1021/acsphotonics.5c01277
摘要

Snapshot ultrafast optical imaging (SUOI) plays a vital role in capturing complex transient events in real time, with significant implications for both fundamental science and practical applications. As an outstanding talent in SUOI, compressed ultrafast photography (CUP) has demonstrated remarkable frame rate reaching trillions of frames per second and sequence depth over hundreds of frames. Nevertheless, as CUP relies on streak cameras, the system's imaging fidelity suffers from an inevitable limitation induced by the charge coupling artifacts in a streak camera. Moreover, although advanced image reconstruction algorithms have improved the recovered scenes, its high compression ratio still causes a compromise in image quality. To address these challenges, we propose a novel approach termed all-optical discrete illumination compressed ultrafast photography (ADI-CUP), which employs a free-space angular-chirp-enhanced delay (FACED) technique to temporally stretch femtosecond pulses and achieves discrete illumination for dynamic scenes. With its distinctive system architecture, ADI-CUP features adjustable frame numbers and flexible interframe intervals ranging from picoseconds to nanoseconds, thereby achieving high-fidelity ultrafast imaging in a snapshot. Experimental results demonstrate the system's superior dynamic spatial resolution and its capability to visualize ultrafast phenomena with complex spatial details, such as stress wave propagation in LiF crystals and air plasma channel formation. These results highlight the potential of ADI-CUP for high-fidelity, real-time ultrafast imaging, which provides an unprecedented tool for advancing the frontiers of ultrafast science.
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