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Autori principali: Zhang, Zhen-Fei, Huang, Peng-Fei, Dong, Shan-Chuan, Rong, Yan-Xin, Xu, Jin-Shi, Gu, Yong-Jian, Xiao, Ya
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2501.09952
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author Zhang, Zhen-Fei
Huang, Peng-Fei
Dong, Shan-Chuan
Rong, Yan-Xin
Xu, Jin-Shi
Gu, Yong-Jian
Xiao, Ya
author_facet Zhang, Zhen-Fei
Huang, Peng-Fei
Dong, Shan-Chuan
Rong, Yan-Xin
Xu, Jin-Shi
Gu, Yong-Jian
Xiao, Ya
contents Quantum backflow, a counterintuitive interference phenomenon where particles with positive momentum can propagate backward, is important in applications involving light-matter interactions. To date, experimental demonstrations of backflow have been restricted to classical optical systems, where momentum is measured using the slit scanning technique or the Shack-Hartmann wavefront sensor technique. However, these techniques have low spatial resolution due to limitations in slit width and Fourier transform lenslet array density. Here, by adopting the technique of weak measurement, we report an observation of azimuthal backflow both theoretically and experimentally. Our results show that a heralded single photon, prepared in specific superposition states with solely negative orbital angular momentum (OAM), exhibits positive OAM. The effects of mode ratio, propagation distance and OAM index on the azimuthal backflow are systematically investigated. Our method avoids using slits and lenslet arrays, allowing for the accurate extraction of photon momentum at each pixel. This work provides new insights and techniques for observing and manipulating backflow in quantum systems.
format Preprint
id arxiv_https___arxiv_org_abs_2501_09952
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Observation of single-photon azimuthal backflow with weak measurement
Zhang, Zhen-Fei
Huang, Peng-Fei
Dong, Shan-Chuan
Rong, Yan-Xin
Xu, Jin-Shi
Gu, Yong-Jian
Xiao, Ya
Optics
Quantum Physics
Quantum backflow, a counterintuitive interference phenomenon where particles with positive momentum can propagate backward, is important in applications involving light-matter interactions. To date, experimental demonstrations of backflow have been restricted to classical optical systems, where momentum is measured using the slit scanning technique or the Shack-Hartmann wavefront sensor technique. However, these techniques have low spatial resolution due to limitations in slit width and Fourier transform lenslet array density. Here, by adopting the technique of weak measurement, we report an observation of azimuthal backflow both theoretically and experimentally. Our results show that a heralded single photon, prepared in specific superposition states with solely negative orbital angular momentum (OAM), exhibits positive OAM. The effects of mode ratio, propagation distance and OAM index on the azimuthal backflow are systematically investigated. Our method avoids using slits and lenslet arrays, allowing for the accurate extraction of photon momentum at each pixel. This work provides new insights and techniques for observing and manipulating backflow in quantum systems.
title Observation of single-photon azimuthal backflow with weak measurement
topic Optics
Quantum Physics
url https://arxiv.org/abs/2501.09952