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Generation of continuous-variable high-dimensional entanglement with three degrees of freedom and multiplexing quantum dense coding

Hui Guo, Na Liu, Li Zhi, Rongguo Yang, Hengxin Sun, Kui Liu, Jiangrui Gao

2022Photonics Research15 citationsDOI

Abstract

High-dimensional entanglement is a critical foundation for the growing demand for information capacity to implement the high-capacity quantum task. Here, we report continuous-variable high-dimensional entanglement with three degrees of freedom (frequency, polarization, and orbital angular momentum) directly generated with a single type-II optical parametric oscillator (OPO) cavity. By compensating both for dispersion in frequency modes and astigmatism in higher-order transverse modes, the OPO is capable of oscillating simultaneously and outputting thousands of entanglement pairs. The three degrees of freedom high-dimensional entanglement are verified simultaneously possessing frequency comb, spin, and orbital angular momentum entanglement via 14 pairs of Hermite–Gaussian mode correlations measurement. Then, the “space-frequency” multiplexing quantum dense coding communication is also demonstrated by using the entanglement resource. It shows the great superiority of high-dimensional entanglement in implementing the high-capacity quantum task. Apart from an increased channel capacity, it is possible to conduct deterministic high-dimensional quantum protocols, quantum imaging, and especially quantum computing.

Topics & Concepts

Quantum entanglementPhysicsQuantum teleportationQuantum mechanicsQuantum networkQuantum channelAmplitude damping channelAngular momentumSquashed entanglementQuantum information scienceQuantumOrbital Angular Momentum in OpticsAdvanced Fiber Laser TechnologiesQuantum Information and Cryptography
Generation of continuous-variable high-dimensional entanglement with three degrees of freedom and multiplexing quantum dense coding | Litcius