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Temporal distinguishability in Hong-Ou-Mandel interference for harnessing high-dimensional frequency entanglement

Yuanyuan Chen, Sebastian Ecker, Lixiang Chen, Fabian Steinlechner, Marcus Huber, Rupert Ursin

2021npj Quantum Information36 citationsDOIOpen Access PDF

Abstract

Abstract High-dimensional quantum entanglement is currently one of the most prolific fields in quantum information processing due to its high information capacity and error resilience. A versatile method for harnessing high-dimensional entanglement has long been hailed as an absolute necessity in the exploration of quantum science and technologies. Here we exploit Hong-Ou-Mandel interference to manipulate discrete frequency entanglement in arbitrary-dimensional Hilbert space. The generation and characterization of two-, four- and six-dimensional frequency entangled qudits are theoretically and experimentally investigated, allowing for the estimation of entanglement dimensionality in the whole state space. Additionally, our strategy can be generalized to engineer higher-dimensional entanglement in other photonic degrees of freedom. Our results may provide a more comprehensive understanding of frequency shaping and interference phenomena, and pave the way to more complex high-dimensional quantum information processing protocols.

Topics & Concepts

Quantum entanglementComputer scienceHilbert spaceInterference (communication)Resilience (materials science)Quantum sensorPhysicsQuantumQuantum mechanicsTheoretical computer scienceQuantum networkTelecommunicationsChannel (broadcasting)ThermodynamicsOrbital Angular Momentum in OpticsQuantum Information and CryptographyAdvanced Fiber Laser Technologies
Temporal distinguishability in Hong-Ou-Mandel interference for harnessing high-dimensional frequency entanglement | Litcius