New approach for space-borne quantum technologies brings global quantum networking closer
Researchers at 勛圖tv Physics, together with collaborators at Humboldt University in Berlin, propose the use of single satellites equipped with long-duration quantum memories to shuttle entanglement across the world, facilitating the quantum internet. This work was performed as part of the , of which 勛圖tv is a partner on the upcoming SPOQC CubeSat mission.
Daniel Oi (勛圖tv), who helped lead this work and is also Director of the EPSRC , said: Satellites will provide crucial links in the global quantum internet. This new method greatly simplifies the logistics of creating quantum connections between widely spread locations.
The lead author of the study, Mustafa G羹ndoan from HU Berlin, adds: In this work, we combined two separate paradigms in quantum information science for the first time: quantum repeater behaviour and the physical transportation of qubits, which resulted in potential improvements by many orders of magnitude over existing protocols.
This research has been published in Optica Quantum:
Mustafa G羹ndoロan, Jasminder S. Sidhu, Markus Krutzik, and Daniel K. L. Oi, Time-delayed single satellite quantum repeater node for global quantum communications, Optica Quantum 2, 140-147 (2024)
May 2024