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Preprint article · Journal article

Orbital Angular Momentum States Enabling Fiber-based High-dimensional Quantum Communication

By Cozzolino, Daniele1,2,3; Bacco, Davide1,2,3; da Lio, Beatrice1,2,3,4; Ingerslev, Kasper1,2,3; Ding, Yunhong1,2,3,5; Dalgaard, Kjeld1,2,3; Kristensen, Poul6; Galili, Michael1,2,3; Rottwitt, Karsten1,3,4; Ramachandran, Siddharth7; Oxenløwe, Leif Katsuo1,2,3 ...and 1 more

From

Department of Photonics Engineering, Technical University of Denmark1

Ultra-fast Optical Communication, Department of Photonics Engineering, Technical University of Denmark2

Centre of Excellence for Silicon Photonics for Optical Communications, Centers, Technical University of Denmark3

Fiber Optics, Devices and Non-linear Effects, Department of Photonics Engineering, Technical University of Denmark4

Nanophotonic Devices, Department of Photonics Engineering, Technical University of Denmark5

OFS Fitel Denmark ApS6

Boston University7

Quantum networks are the ultimate target in quantum communication, where many connected users can share information carried by quantum systems. The keystones of such structures are the reliable generation, transmission, and manipulation of quantum states. Two-dimensional quantum states, qubits, are steadily adopted as information units.

However, high-dimensional quantum states, qudits, constitute a richer resource for future quantum networks, exceeding the limitations imposed by the ubiquitous qubits. The generation and manipulation of such D-level systems have been improved over the last ten years, but their reliable transmission between remote locations remains the main challenge.

Here, we show how a recent air-core fiber supporting orbital angular momentum (OAM) modes can be exploited to faithfully transmit D-dimensional states. Four OAM quantum states and their superpositions are created, propagated in a 1.2-km-long fiber and detected with high fidelities. In addition, three quantum-key-distribution protocols are implemented as concrete applications to assert the practicality of our results.

This experiment enhances the distribution of high-dimensional quantum states, attesting the orbital angular momentum as a vessel for the future quantum network

Language: English
Year: 2019
ISSN: 23317019
Types: Preprint article and Journal article
DOI: 10.1103/PhysRevApplied.11.064058
ORCIDs: Cozzolino, Daniele , Bacco, Davide , Ingerslev, Kasper , Ding, Yunhong , Dalgaard, Kjeld , Galili, Michael , Rottwitt, Karsten and Oxenløwe, Leif Katsuo
Keywords

quant-ph

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