logo
ResearchBunny Logo
Proposal for space-borne quantum memories for global quantum networking

Physics

Proposal for space-borne quantum memories for global quantum networking

M. Gündoğan, J. S. Sidhu, et al.

Discover how Mustafa Gündoğan, Jasminder S. Sidhu, Victoria Henderson, Luca Mazzarella, Janik Wolters, Daniel K. L. Oi, and Markus Krutzik are paving the way for global quantum communication. This groundbreaking research showcases the remarkable potential of quantum memory-equipped satellites, promising faster entanglement distribution rates and a roadmap for achieving unconditionally secure communications.

00:00
00:00
Playback language: English
Abstract
Global-scale quantum communication links are essential for the quantum internet, but exponential loss in optical fibers limits their range. Quantum repeaters and space-based systems offer solutions. This paper analyzes using quantum memory (QM)-equipped satellites for quantum communication, focusing on global-range repeaters and memory-assisted (MA-) QKD. The authors demonstrate that QM-equipped satellites offer significantly faster entanglement distribution rates than existing protocols. They analyze how performance depends on memory characteristics, propose architectures for light-matter interfaces, and provide a roadmap for realizing unconditionally secure global quantum communications with near-term technologies.
Publisher
npj Quantum Information
Published On
Aug 18, 2021
Authors
Mustafa Gündoğan, Jasminder S. Sidhu, Victoria Henderson, Luca Mazzarella, Janik Wolters, Daniel K. L. Oi, Markus Krutzik
Tags
quantum communication
quantum repeaters
quantum memory
global range
satellites
secure quantum communications
entanglement distribution

Related Publications

Explore these studies to deepen your understanding of the subject.

Spooky action at a global distance: analysis of space-based entanglement distribution for the quantum internet
Physics

Spooky action at a global distance: analysis of space-based entanglement distribution for the quantum internet

S. Khatri, A. J. Brady, et al.

A quantum sensing metrology for magnetic memories
Engineering and Technology

A quantum sensing metrology for magnetic memories

V. J. Borràs, R. Carpenter, et al.

Small dataset machine-learning approach for efficient design space exploration: engineering ZnTe-based high-entropy alloys for water splitting
Engineering and Technology

Small dataset machine-learning approach for efficient design space exploration: engineering ZnTe-based high-entropy alloys for water splitting

S. V. Oh, S. Yoo, et al.

Quantum read-out for cold atomic quantum simulators
Physics

Quantum read-out for cold atomic quantum simulators

M. Gluza, T. Schweigler, et al.

Listen, Learn & Level Up
Over 10,000 hours of research content in 25+ fields, available in 12+ languages.
No more digging through PDFs, just hit play and absorb the world's latest research in your language, on your time.
listen to research audio papers with researchbunny