Superconducting quantum node for entanglement and storage of microwave radiation

E. Flurin; N. Roch; J. D. Pillet; F. Mallet; B. Huard

doi:10.1103/PhysRevLett.114.090503

Superconducting quantum node for entanglement and storage of microwave radiation

E. Flurin
, N. Roch
, J. D. Pillet
, F. Mallet
, B. Huard

Research output: Contribution to journal › Article › peer-review

Abstract

Superconducting circuits and microwave signals are good candidates to realize quantum networks, which are the backbone of quantum computers. We have realized a quantum node based on a 3D microwave superconducting cavity parametrically coupled to a transmission line by a Josephson ring modulator. We first demonstrate the time-controlled capture, storage, and retrieval of an optimally shaped propagating microwave field, with an efficiency as high as 80%. We then demonstrate a second essential ability, which is the time-controlled generation of an entangled state distributed between the node and a microwave channel.

Original language	English
Article number	090503
Journal	Physical Review Letters
Volume	114
Issue number	9
DOIs	https://doi.org/10.1103/PhysRevLett.114.090503
Publication status	Published - 4 Mar 2015

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10.1103/PhysRevLett.114.090503

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abstract = "Superconducting circuits and microwave signals are good candidates to realize quantum networks, which are the backbone of quantum computers. We have realized a quantum node based on a 3D microwave superconducting cavity parametrically coupled to a transmission line by a Josephson ring modulator. We first demonstrate the time-controlled capture, storage, and retrieval of an optimally shaped propagating microwave field, with an efficiency as high as 80\%. We then demonstrate a second essential ability, which is the time-controlled generation of an entangled state distributed between the node and a microwave channel.",

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AU - Huard, B.

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N2 - Superconducting circuits and microwave signals are good candidates to realize quantum networks, which are the backbone of quantum computers. We have realized a quantum node based on a 3D microwave superconducting cavity parametrically coupled to a transmission line by a Josephson ring modulator. We first demonstrate the time-controlled capture, storage, and retrieval of an optimally shaped propagating microwave field, with an efficiency as high as 80%. We then demonstrate a second essential ability, which is the time-controlled generation of an entangled state distributed between the node and a microwave channel.

AB - Superconducting circuits and microwave signals are good candidates to realize quantum networks, which are the backbone of quantum computers. We have realized a quantum node based on a 3D microwave superconducting cavity parametrically coupled to a transmission line by a Josephson ring modulator. We first demonstrate the time-controlled capture, storage, and retrieval of an optimally shaped propagating microwave field, with an efficiency as high as 80%. We then demonstrate a second essential ability, which is the time-controlled generation of an entangled state distributed between the node and a microwave channel.

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Superconducting quantum node for entanglement and storage of microwave radiation

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