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Autori principali: Zheng, Yi, Liu, Zhao-Di, Miao, Rui-Heng, Cui, Jin-Ming, Yang, Mu, Xu, Xiao-Ye, Xu, Jin-Shi, Li, Chuan-Feng, Guo, Guang-Can
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2406.04973
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author Zheng, Yi
Liu, Zhao-Di
Miao, Rui-Heng
Cui, Jin-Ming
Yang, Mu
Xu, Xiao-Ye
Xu, Jin-Shi
Li, Chuan-Feng
Guo, Guang-Can
author_facet Zheng, Yi
Liu, Zhao-Di
Miao, Rui-Heng
Cui, Jin-Ming
Yang, Mu
Xu, Xiao-Ye
Xu, Jin-Shi
Li, Chuan-Feng
Guo, Guang-Can
contents With an extremely high dimensionality, the spatial degree of freedom of entangled photons is a key tool for quantum foundation and applied quantum techniques. To fully utilize the feature, the essential task is to experimentally characterize the multiphoton spatial wave function including the entangled amplitude and phase information at different evolutionary stages. However, there is no effective method to measure it. Quantum state tomography is costly, and quantum holography requires additional references. Here we introduce quantum Shack-Hartmann wavefront sensing to perform efficient and reference-free measurement of the biphoton spatial wave function. The joint probability distribution of photon pairs at the back focal plane of a microlens array is measured and used for amplitude extraction and phase reconstruction. In the experiment, we observe that the biphoton amplitude correlation becomes weak while phase correlation shows up during free-space propagation. Our work is a crucial step in quantum physical and adaptive optics and paves the way for characterizing quantum optical fields with high-order correlations or topological patterns.
format Preprint
id arxiv_https___arxiv_org_abs_2406_04973
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Characterizing Biphoton Spatial Wave Function Dynamics with Quantum Wavefront Sensing
Zheng, Yi
Liu, Zhao-Di
Miao, Rui-Heng
Cui, Jin-Ming
Yang, Mu
Xu, Xiao-Ye
Xu, Jin-Shi
Li, Chuan-Feng
Guo, Guang-Can
Quantum Physics
Optics
With an extremely high dimensionality, the spatial degree of freedom of entangled photons is a key tool for quantum foundation and applied quantum techniques. To fully utilize the feature, the essential task is to experimentally characterize the multiphoton spatial wave function including the entangled amplitude and phase information at different evolutionary stages. However, there is no effective method to measure it. Quantum state tomography is costly, and quantum holography requires additional references. Here we introduce quantum Shack-Hartmann wavefront sensing to perform efficient and reference-free measurement of the biphoton spatial wave function. The joint probability distribution of photon pairs at the back focal plane of a microlens array is measured and used for amplitude extraction and phase reconstruction. In the experiment, we observe that the biphoton amplitude correlation becomes weak while phase correlation shows up during free-space propagation. Our work is a crucial step in quantum physical and adaptive optics and paves the way for characterizing quantum optical fields with high-order correlations or topological patterns.
title Characterizing Biphoton Spatial Wave Function Dynamics with Quantum Wavefront Sensing
topic Quantum Physics
Optics
url https://arxiv.org/abs/2406.04973