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Autori principali: Arend, Germaine, Huang, Guanhao, Feist, Armin, Yang, Yujia, Henke, Jan-Wilke, Qiu, Zheru, Jeng, Hao, Raja, Arslan Sajid, Haindl, Rudolf, Wang, Rui Ning, Kippenberg, Tobias J., Ropers, Claus
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2409.11300
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author Arend, Germaine
Huang, Guanhao
Feist, Armin
Yang, Yujia
Henke, Jan-Wilke
Qiu, Zheru
Jeng, Hao
Raja, Arslan Sajid
Haindl, Rudolf
Wang, Rui Ning
Kippenberg, Tobias J.
Ropers, Claus
author_facet Arend, Germaine
Huang, Guanhao
Feist, Armin
Yang, Yujia
Henke, Jan-Wilke
Qiu, Zheru
Jeng, Hao
Raja, Arslan Sajid
Haindl, Rudolf
Wang, Rui Ning
Kippenberg, Tobias J.
Ropers, Claus
contents Free electrons are a widespread and universal source of electromagnetic fields. The past decades witnessed ever-growing control over many aspects of electron-generated radiation, from the incoherent emission produced by X-ray tubes to the exceptional brilliance of free-electron lasers. Reduced to the elementary process of quantized energy exchange between individual electrons and the electromagnetic field, electron beams may facilitate future sources of tunable quantum light. However, the quantum features of such radiation are tied to the correlation of the particles, calling for the joint electronic and photonic state to be explored for further applications. Here, we demonstrate the coherent parametric generation of non-classical states of light by free electrons. We show that the quantized electron energy loss heralds the number of photons generated in a dielectric waveguide. In Hanbury-Brown-Twiss measurements, an electron-heralded single-photon state is revealed via antibunching intensity correlations, while two-quantum energy losses of individual electrons yield pronounced two-photon coincidences. The approach facilitates the tailored preparation of higher-number Fock and other optical quantum states based on controlled interactions with free-electron beams.
format Preprint
id arxiv_https___arxiv_org_abs_2409_11300
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Electrons herald non-classical light
Arend, Germaine
Huang, Guanhao
Feist, Armin
Yang, Yujia
Henke, Jan-Wilke
Qiu, Zheru
Jeng, Hao
Raja, Arslan Sajid
Haindl, Rudolf
Wang, Rui Ning
Kippenberg, Tobias J.
Ropers, Claus
Quantum Physics
Free electrons are a widespread and universal source of electromagnetic fields. The past decades witnessed ever-growing control over many aspects of electron-generated radiation, from the incoherent emission produced by X-ray tubes to the exceptional brilliance of free-electron lasers. Reduced to the elementary process of quantized energy exchange between individual electrons and the electromagnetic field, electron beams may facilitate future sources of tunable quantum light. However, the quantum features of such radiation are tied to the correlation of the particles, calling for the joint electronic and photonic state to be explored for further applications. Here, we demonstrate the coherent parametric generation of non-classical states of light by free electrons. We show that the quantized electron energy loss heralds the number of photons generated in a dielectric waveguide. In Hanbury-Brown-Twiss measurements, an electron-heralded single-photon state is revealed via antibunching intensity correlations, while two-quantum energy losses of individual electrons yield pronounced two-photon coincidences. The approach facilitates the tailored preparation of higher-number Fock and other optical quantum states based on controlled interactions with free-electron beams.
title Electrons herald non-classical light
topic Quantum Physics
url https://arxiv.org/abs/2409.11300