Litcius/Paper detail

Generation of entangled waveguided photon pairs by free electrons

Theis P. Rasmussen, Álvaro Rodríguez Echarri, Joel D. Cox, F. Javier Garcı́a de Abajo

2024Science Advances16 citationsDOIOpen Access PDF

Abstract

Entangled photons are a key resource in quantum technologies. While intense laser light propagating in nonlinear crystals is conventionally used to generate entangled photons, such schemes have low efficiency due to the weak nonlinear response of known materials and losses associated with in/out photon coupling. Here, we show how to generate entangled polariton pairs directly within optical waveguides using free electrons. The measured energy loss of undeflected electrons heralds the production of counter-propagating polariton pairs entangled in energy and emission direction. For illustration, we study the excitation of plasmon polaritons in metal strip waveguides that strongly enhance light-matter interactions, rendering two-plasmon generation dominant over single-plasmon excitation. We demonstrate that electron energy losses detected within optimal frequency ranges can reliably signal the generation of plasmon pairs entangled in energy and momentum. Our proposed scheme is directly applicable to other types of optical waveguides for in situ generation of entangled photon pairs.

Topics & Concepts

PhysicsPhotonPlasmonPhoton entanglementElectronPolaritonExcitationQuantum opticsFree electron modelPhotonicsSurface plasmon polaritonAtomic physicsOpticsQuantumSurface plasmonQuantum entanglementQuantum mechanicsQuantum Information and CryptographyPlasmonic and Surface Plasmon ResearchStrong Light-Matter Interactions