光学
物理
流离失所(心理学)
棱镜
相(物质)
心理学
量子力学
心理治疗师
作者
Zhouxin Liang,Xin Gu,Jiaqi Li,Lixun Wu,Zhaoxiang Zhu,Shuqing Lin,Yuhang Lin,Yujie Chen,Siyuan Yu
出处
期刊:Optics Letters
[Optica Publishing Group]
日期:2025-05-27
卷期号:50 (12): 3919-3919
被引量:1
摘要
Accurate transverse displacement measurement at the picometer scale is essential for advancing ultraprecision metrology and probing microscopic physical interactions. Here, we demonstrate a high-precision transverse displacement sensor leveraging a phase-matched Pancharatnam–Berry (PB) metasurface and trapezoidal prism configuration, which simplifies optical alignment by eliminating stringent Talbot self-imaging requirements. By synergistically matching the phase gradient of the PB metasurface with the prism geometry, we enable robust signal extraction through the photonic spin Hall effect, while a near-infrared source ( λ = 1550 nm) suppresses environmental interference. Differential amplification further rejects common-mode noise from laser fluctuations and electronic drift. The system achieves a displacement resolution of 46.18 pm under quasi-static conditions (0.2–100 Hz) and 124.86 pm across the full operational bandwidth (0.2–1.25 MHz), surpassing conventional polarization-encoded schemes in both sensitivity and practicality. This work thus presents a strategy for metasurface-enhanced metrology via geometric-phase-engineered photonic architectures, with transformative potential across applications from semiconductor lithography to quantum optomechanics.
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