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Hybrid quantum circuits: Superconducting circuits interacting <?format ?>with other quantum systems

Hybrid quantum circuits: Superconducting circuits interacting with other quantum systems Hybrid quantum circuits combine two or more physical systems, with the goal of harnessing the advantages and strengths of the different systems in order to better explore new phenomena and potentially bring about novel quantum technologies. This article presents a brief overview of the progress achieved so far in the field of hybrid circuits involving atoms, spins, and solid-state devices (including superconducting and nanomechanical systems). How these circuits combine elements from atomic physics, quantum optics, condensed matter physics, and nanoscience is discussed, and different possible approaches for integrating various systems into a single circuit are presented. In particular, hybrid quantum circuits can be fabricated on a chip, facilitating their future scalability, which is crucial for building future quantum technologies, including quantum detectors, simulators, and computers. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Reviews of Modern Physics American Physical Society (APS)

Hybrid quantum circuits: Superconducting circuits interacting <?format ?>with other quantum systems

Reviews of Modern Physics , Volume 85 (2) – Apr 9, 2013
31 pages

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References (259)

Publisher
American Physical Society (APS)
Copyright
© 2013 American Physical Society
ISSN
0034-6861
DOI
10.1103/RevModPhys.85.623
Publisher site
See Article on Publisher Site

Abstract

Hybrid quantum circuits combine two or more physical systems, with the goal of harnessing the advantages and strengths of the different systems in order to better explore new phenomena and potentially bring about novel quantum technologies. This article presents a brief overview of the progress achieved so far in the field of hybrid circuits involving atoms, spins, and solid-state devices (including superconducting and nanomechanical systems). How these circuits combine elements from atomic physics, quantum optics, condensed matter physics, and nanoscience is discussed, and different possible approaches for integrating various systems into a single circuit are presented. In particular, hybrid quantum circuits can be fabricated on a chip, facilitating their future scalability, which is crucial for building future quantum technologies, including quantum detectors, simulators, and computers.

Journal

Reviews of Modern PhysicsAmerican Physical Society (APS)

Published: Apr 9, 2013

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