物理
全息术
干涉测量
极化(电化学)
光子
干扰(通信)
光学
量子成像
量子
量子光学
差分相位
微分器
天文干涉仪
信号(编程语言)
光子学
领域(数学)
双光子激发显微术
相(物质)
基础(线性代数)
量子纠缠
差速器(机械装置)
量子信息
量子传感器
量子计量学
量子态
作者
Minggui Liang,Qiuying Li,Shizhen Chen,Weixing Shu,Shuangchun Wen,Hailu Luo
出处
期刊:PhotoniX
[Springer Nature]
日期:2026-04-29
卷期号:7 (1)
标识
DOI:10.1186/s43074-026-00247-1
摘要
Abstract Holography provides an effective solution for retrieving the complex optical field, laying the foundation of precision measurement ranging from biological imaging to material analysis. However, conventional holography relies on splitting photon paths by a bulky interferometer to locally modulate the interference field, yielding only the wrapped phase. To overcome this, a quantum differential holography (QDH) is proposed, which employs a metasurface-integrated optical differentiator to achieve nonlocal polarization interference within a single signal photon path. The phase information is optically encoded as derivatives within the measured intensity, eliminating the fragile arctangent-based phase unwrapping step that plagues low-visibility fringe reconstruction. Furthermore, interference is remotely modulated by selecting the basis of an idler photon whose polarization is entangled with the spatiotemporal field of signal photon. The QDH provides a compact and stable quantum holographic platform, which unlocks additional possibilities for biomedicine, materials science, and quantum information processing.
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