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Frequency-bin entanglement from domain-engineered down-conversion

Christopher L. Morrison, Francesco Graffitti, Peter Barrow, Alexander Pickston, Joseph Ho, Alessandro Fedrizzi

2022APL Photonics53 citationsDOIOpen Access PDF

Abstract

Frequency encoding is quickly becoming an attractive prospect for quantum information protocols owing to larger Hilbert spaces and increased resilience to noise compared to other photonic degrees of freedom. To fully make use of frequency encoding as a practical paradigm for quantum information processing, an efficient and simple source of frequency entanglement is required. Here, we present a single-pass source of discrete frequency-bin entanglement that does not use filtering or a resonant cavity. We use a domain-engineered nonlinear crystal to generate an eight-mode frequency-bin entangled source at telecommunication wavelengths. Our approach leverages the high heralding efficiency and simplicity associated with bulk crystal sources.

Topics & Concepts

Quantum entanglementEncoding (memory)PhysicsResilience (materials science)Computer scienceNoise (video)Quantum informationQuantum mechanicsHilbert spaceSimple (philosophy)QuantumNonlinear systemTopology (electrical circuits)Quantum sensorQuantum channelTheoretical computer scienceQuantum information scienceQuantum networkQuantum noiseSimplicityQuantum computerCrystal (programming language)Quantum key distributionTheoretical physicsAmplitude damping channelPhotonic crystalQuantum stateQuantum teleportationPhoton entanglementElectronic engineeringMathematicsQuantum technologyQuantum capacityMultipartite entanglementStatistical physicsNeural Networks and Reservoir ComputingQuantum Information and CryptographyMechanical and Optical Resonators
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