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Enhancing the modal purity of orbital angular momentum photons

Isaac Nape, Bereneice Sephton, Yao‐Wei Huang, Adam Vallés, Cheng‐Wei Qiu, Antonio Ambrosio, Federico Capasso, Andrew Forbes

2020APL Photonics41 citationsDOIOpen Access PDF

Abstract

Orbital angular momentum (OAM) beams with topological charge ℓ are commonly generated and detected by modulating an incoming field with an azimuthal phase profile of the form exp(iℓϕ) by a variety of approaches. This results in unwanted radial modes and reduced power in the desired OAM mode. Here, we show how to enhance the modal purity in the creation and detection of classical OAM beams and in the quantum detection of OAM photons. Classically, we combine holographic and metasurface control to produce high purity OAM modes and show how to detect them with high efficiency, extending the demonstration to the quantum realm with spatial light modulators. We demonstrate ultra-high purity OAM modes in orders as high as ℓ = 100 and a doubling of dimensionality in the quantum OAM spectrum from a spontaneous parametric downconversion source. Our work offers a simple route to increase the channel capacity in classical and quantum communication using OAM modes as a basis.

Topics & Concepts

Angular momentumPhysicsPhotonQuantumOpticsOrbital angular momentum of lightPhoton entanglementSpontaneous parametric down-conversionHolographyTopology (electrical circuits)Quantum entanglementQuantum mechanicsTotal angular momentum quantum numberEngineeringElectrical engineeringOrbital Angular Momentum in OpticsMetamaterials and Metasurfaces ApplicationsPlasmonic and Surface Plasmon Research
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