Quantum communication (QC) represents a key enabler for many quantum applications. However, low information rates and short propagation distances, limit the development of this field and its practical applications. High-dimensional (Hi-D) QC can address these challenges enhancing the information rate and the systems error tolerance. We report our recent results on Hi-D quantum communication where we prove the capability of preparing, manipulating, transmitting and measuring Hi-D quantum states through multi-core and multimode fiber.
High-dimensional quantum communication using space encoding / Bacco D; Daniele Cozzolino; Beatrice Da Lio; Yunhong Ding; Kasper Ingerslev; Michael Galili; Karsten Rottwitt; Siddharth Ramachandran; and Leif Katsuo Oxenløwe. - ELETTRONICO. - (2019), pp. 1-4. (Intervento presentato al convegno 21st International Conference on Transparent Optical Networks nel 9-13 July 2019).
High-dimensional quantum communication using space encoding
Bacco D
;
2019
Abstract
Quantum communication (QC) represents a key enabler for many quantum applications. However, low information rates and short propagation distances, limit the development of this field and its practical applications. High-dimensional (Hi-D) QC can address these challenges enhancing the information rate and the systems error tolerance. We report our recent results on Hi-D quantum communication where we prove the capability of preparing, manipulating, transmitting and measuring Hi-D quantum states through multi-core and multimode fiber.
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08840321.pdf
Accesso chiuso
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955.64 kB
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Adobe PDF
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955.64 kB | Adobe PDF | Richiedi una copia |
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