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Quantum networks based on superconducting circuits and dissipative channels (2015-2017)

Abstract

Superconducting circuits have great potential for probing and using quantum nature on a chip but lack networking capabilities between remote sites. In contrary, non-local quantum correlations are critical for quantum devices to surpass classical systems. This project will create capabilities for establishing entanglement between remote superconducting chips using non-local dissipative interaction. Within this approach the created entanglement can be also preserved as long as necessary as a resource for quantum protocols. The resulting technology enables quantum information processing in superconducting circuits on fundamentally larger scales and provides a powerful platform to test the limits for building artificial quantum systems.

Experts

Associate Professor Arkady Fedorov

Affiliate of ARC COE for Engineered Quantum Systems (EQUS)
ARC COE for Engineered Quantum Systems
Faculty of Science
Associate Professor
School of Mathematics and Physics
Faculty of Science
Arkady Fedorov
Arkady Fedorov