全息术
物理
散粒噪声
光子
极化(电化学)
光学
量子
量子噪声
振幅
量子成像
噪音(视频)
相位共轭
信号(编程语言)
相(物质)
量子光学
相位噪声
参考光束
电子全息术
相位恢复
巧合
投影(关系代数)
计算全息
衍射
近场和远场
偏转(物理)
量子涨落
作者
Q H Li,Minggui Liang,Shuangchun Wen,Hailu Luo
出处
期刊:Nano Letters
[American Chemical Society]
日期:2026-05-04
卷期号:26 (19): 6466-6473
标识
DOI:10.1021/acs.nanolett.6c01233
摘要
Holography provides comprehensive characterization of complex light fields, laying the foundation for biological microscopy and precision measurement. Although the amplitude and phase information can be quantitatively analyzed through phase-shifting holography, the additional beam deflection during multistep phase-shifting operations and the shot noise will inevitably reduce the accuracy of holography. Here, a quantum nonlocal holography via multichannel metasurfaces (QNHM) is proposed to achieve high-quality holography under high noise levels. By integrating multiple quantum channels on the metasurface, the projection probabilities of idler photons in four polarization bases are simultaneously measured. Since the spatiotemporal field of signal photons are nonlocally modulated by the polarization of idler photons, the phase-shifting operations is completely avoided. The coincidence measurement greatly filters out the shot noise from the time domain, thereby enhancing the signal-to-noise ratio, image contrast, and accuracy. The proposed QNHM may open up feasible avenues in biomedicine, material analysis, and quantum information processing.
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