Multiphoton electron emission with non-classical light

Photon number distributions of classical and non-classical light sources have been studied extensively, yet their impact on photoemission processes is largely unexplored. In this article, we present measurements of electron number distributions from metal needle tips illuminated with ultrashort ligh...

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Veröffentlicht in:	Nature physics 2024-06, Vol.20 (6), p.945-950
Hauptverfasser:	Heimerl, Jonas, Mikhaylov, Alexander, Meier, Stefan, Höllerer, Henrick, Kaminer, Ido, Chekhova, Maria, Hommelhoff, Peter
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Schlagworte:	639/766/400/1021 639/766/400/385 639/766/400/482 Atomic Classical and Continuum Physics Complex Systems Condensed Matter Physics Electron emission Extreme values Free electrons Light Light sources Mathematical and Computational Physics Molecular Optical and Plasma Physics Optics Photoelectric emission Photons Physics Physics and Astronomy Quantum statistics Statistics Theoretical
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creator	Heimerl, Jonas Mikhaylov, Alexander Meier, Stefan Höllerer, Henrick Kaminer, Ido Chekhova, Maria Hommelhoff, Peter
description	Photon number distributions of classical and non-classical light sources have been studied extensively, yet their impact on photoemission processes is largely unexplored. In this article, we present measurements of electron number distributions from metal needle tips illuminated with ultrashort light pulses with various photon quantum statistics. By varying the photon statistics of the exciting light field between classical (Poissonian) and quantum (super-Poissonian), we demonstrate that the measured electron distributions are changed substantially. Using single-mode bright squeezed vacuum light, we measure extreme statistics events with up to 65 electrons from one light pulse at a mean of 0.27 electrons per pulse—the likelihood for such an event equals 10 −128 with Poissonian statistics. By changing the number of modes of the exciting bright squeezed vacuum, we can tailor the electron number distribution on demand. Most importantly, our results demonstrate that the photon statistics is imprinted from the driving light to the emitted electrons, opening the door to new sensor devices and to strong-field optics with quantum light and electrons. Photoemission experiments demonstrate that the photon number statistics of the exciting light can be imprinted on the emitted electrons, allowing the controlled generation of classical or non-classical electron number statistics of free electrons.
doi_str_mv	10.1038/s41567-024-02472-6
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subjects	639/766/400/1021 639/766/400/385 639/766/400/482 Atomic Classical and Continuum Physics Complex Systems Condensed Matter Physics Electron emission Extreme values Free electrons Light Light sources Mathematical and Computational Physics Molecular Optical and Plasma Physics Optics Photoelectric emission Photons Physics Physics and Astronomy Quantum statistics Statistics Theoretical
title	Multiphoton electron emission with non-classical light
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