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Quantum light transport in phase-separated Anderson localization fiber

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Authors: Alexander Demuth, Robin Camphausen, Álvaro Cuevas, Nick F. Borrelli, Thomas P. Seward, Lisa Lamberson, Karl W. Koch, Alessandro Ruggeri, Francesca Madonini, Federica Villa, Valerio Pruneri

Year

2022

Paper ID

25366

Status

Peer-reviewed

Abstract Read

~2 min

Abstract Words

56

Citations

N/A

Abstract

Anderson localization, a strong localization effect that prevents wave diffusion, is fundamentally important in manipulating wave propagation in a disordered medium. This work uses a phase separated glass Anderson localization optical fiber and demonstrates quantum light transport, which shows the potential for transmission of high dimensional quantum information, thereby enabling quantum imaging and quantum communication applications.

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  • It adds a 2022 reference point for readers tracking recent quantum research.
  • Anderson localization, a strong localization effect that prevents wave diffusion, is fundamentally important in manipulating wave propagation in a disordered medium.

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