Microwave photonics with superconducting quantum circuits
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TLDR
In the past 20 years, impressive progress has been made both experimentally and theoretically in superconducting quantum circuits, which provide a platform for manipulating microwave photons as mentioned in this paper, and many higher-order effects, unusual and less familiar in traditional cavity quantum electrodynamics with natural atoms, have been experimentally observed.About:
This article is published in Physics Reports.The article was published on 2017-11-30 and is currently open access. It has received 909 citations till now. The article focuses on the topics: Cavity quantum electrodynamics & Quantum optics.read more
Citations
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A quantum engineer's guide to superconducting qubits
Philip Krantz,Philip Krantz,Morten Kjaergaard,Fei Yan,Terry P. Orlando,Simon Gustavsson,William D. Oliver +6 more
TL;DR: In this paper, the authors provide an introductory guide to the central concepts and challenges in the rapidly accelerating field of superconducting quantum circuits, including qubit design, noise properties, qubit control and readout techniques.
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Quantum information processing with superconducting circuits: a review
TL;DR: The time is ripe for describing some of the recent development of superconducting devices, systems and applications as well as practical applications of QIP, such as computation and simulation in Physics and Chemistry.
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Circuit quantum electrodynamics
TL;DR: The field of circuit quantum electrodynamics (QED) as discussed by the authors was initiated by Josephson-junction-based superconducting circuits and has become an independent and thriving field of research in its own right.
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A Quantum Engineer's Guide to Superconducting Qubits
Philip Krantz,Philip Krantz,Morten Kjaergaard,Fei Yan,Terry P. Orlando,Simon Gustavsson,William D. Oliver +6 more
TL;DR: In this article, the authors provide an introductory guide to the central concepts and challenges in the rapidly accelerating field of superconducting quantum circuits, including qubit design, noise properties, qubit control, and readout techniques.
Journal ArticleDOI
Ultrastrong coupling between light and matter
TL;DR: A review of ultrastrong coupling between light and matter can be found in this paper, where the authors discuss entangled ground states with virtual excitations, new avenues for nonlinear optics, and connections to several important physical models.
References
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Directional Amplification with a Josephson Circuit
TL;DR: In this paper, a directional amplifier based on the Josephson effect was proposed to overcome disadvantages of conventional isolators and allow components to be integrated on a chip, which could prevent return of noise through amplification chain.
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Method for observing robust and tunable phonon blockade in a nanomechanical resonator coupled to a charge qubit
TL;DR: In this article, the authors proposed an experimental method to realize phonon blockade in a driven harmonic nanomechanical resonator coupled to a qubit, where the coupling is proportional to the second-order nonlinear susceptibility, in contrast to the standard realizations of phonon and photon blockade effects in Kerr-type nonlinear systems.
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Arbitrary Control of Entanglement between two Superconducting Resonators
TL;DR: A method to synthesize an arbitrary quantum state of two superconducting resonators using a coherent interaction of each resonator with a tunable artificial atom to create entangled quantum superpositions of photon number (Fock) states in the resonators is presented.
Book
Single-photon Devices and Applications
TL;DR: In this paper, the authors present the only textbook focused on single-photon devices and thus fill the gap for a readily accessible update on the rapid progress in the field of single photon devices.
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Observing interferences between past and future quantum states in resonance fluorescence
Philippe Campagne-Ibarcq,Landry Bretheau,Emmanuel Flurin,Alexia Auffèves,François Mallet,Benjamin Huard +5 more
TL;DR: In this article, a quantum bit in presence of a relaxation channel is continuously monitored by a superconducting qubit driven at resonance, which exhibits interferences between oscillations associated to past and future quantum states.