Quantum vortices of strongly interacting photons

Vortices are topologically nontrivial defects that generally originate from nonlinear field dynamics. All-optical generation of photonic vortices-phase singularities of the electromagnetic field-requires sufficiently strong nonlinearity that is typically achieved in the classical optics regime. We r...

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Veröffentlicht in:	Science (American Association for the Advancement of Science) 2023-07, Vol.381 (6654), p.193-198
Hauptverfasser:	Drori, Lee, Das, Bankim Chandra, Zohar, Tomer Danino, Winer, Gal, Poem, Eilon, Poddubny, Alexander, Firstenberg, Ofer
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Sprache:	eng
Schlagworte:	Electromagnetic Fields Nonlinear optics Optics Optics and Photonics Photons Quantum Theory Refractivity Vortices
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container_title	Science (American Association for the Advancement of Science)
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creator	Drori, Lee Das, Bankim Chandra Zohar, Tomer Danino Winer, Gal Poem, Eilon Poddubny, Alexander Firstenberg, Ofer
description	Vortices are topologically nontrivial defects that generally originate from nonlinear field dynamics. All-optical generation of photonic vortices-phase singularities of the electromagnetic field-requires sufficiently strong nonlinearity that is typically achieved in the classical optics regime. We report on the realization of quantum vortices of photons that result from a strong photon-photon interaction in a quantum nonlinear optical medium. The interaction causes faster phase accumulation for copropagating photons, producing a quantum vortex-antivortex pair within the two-photon wave function. For three photons, the formation of vortex lines and a central vortex ring confirms the existence of a genuine three-photon interaction. The wave function topology, governed by two- and three-photon bound states, imposes a conditional phase shift of π per photon, a potential resource for deterministic quantum logic operations.
doi_str_mv	10.1126/science.adh5315
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All-optical generation of photonic vortices-phase singularities of the electromagnetic field-requires sufficiently strong nonlinearity that is typically achieved in the classical optics regime. We report on the realization of quantum vortices of photons that result from a strong photon-photon interaction in a quantum nonlinear optical medium. The interaction causes faster phase accumulation for copropagating photons, producing a quantum vortex-antivortex pair within the two-photon wave function. For three photons, the formation of vortex lines and a central vortex ring confirms the existence of a genuine three-photon interaction. 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subjects	Electromagnetic Fields Nonlinear optics Optics Optics and Photonics Photons Quantum Theory Refractivity Vortices
title	Quantum vortices of strongly interacting photons
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