Waveguide quantum electrodynamics with superconducting artificial giant atoms

[1]  P. Delsing,et al.  Electromagnetically Induced Acoustic Transparency with a Superconducting Circuit. , 2020, Physical review letters.

[2]  A. F. Kockum,et al.  Engineering the level structure of a giant artificial atom in waveguide quantum electrodynamics , 2020, 2003.14167.

[3]  A. Melville,et al.  Generating spatially entangled itinerant photons with waveguide quantum electrodynamics , 2020, Science Advances.

[4]  A. F. Kockum Quantum Optics with Giant Atoms—the First Five Years , 2019, 1912.13012.

[5]  A. F. Kockum,et al.  Characterizing decoherence rates of a superconducting qubit by direct microwave scattering , 2019, npj Quantum Information.

[6]  A. Ferraro,et al.  From the Bloch Sphere to Phase-Space Representations with the Gottesman–Kitaev–Preskill Encoding , 2019, International Symposium on Mathematics, Quantum Theory, and Cryptography.

[7]  Morten Kjaergaard,et al.  Superconducting Qubits: Current State of Play , 2019, Annual Review of Condensed Matter Physics.

[8]  O. Painter,et al.  Cavity quantum electrodynamics with atom-like mirrors , 2019, Nature.

[9]  F. Nori,et al.  Large Collective Lamb Shift of Two Distant Superconducting Artificial Atoms. , 2019, Physical review letters.

[10]  K. Lehnert,et al.  Resolving Phonon Fock States in a Multimode Cavity with a Double-Slit Qubit , 2019, Physical Review X.

[11]  Gustav Andersson,et al.  Non-exponential decay of a giant artificial atom , 2018, Nature Physics.

[12]  O. Astafiev,et al.  Quantum Regime of a Two-Dimensional Phonon Cavity. , 2018, Physical review letters.

[13]  Enrique Solano,et al.  Digital-analog quantum simulations with superconducting circuits , 2017, 1711.09810.

[14]  Franco Nori,et al.  Decoherence-Free Interaction between Giant Atoms in Waveguide Quantum Electrodynamics. , 2017, Physical review letters.

[15]  K. Lehnert,et al.  Cavity Quantum Acoustic Device in the Multimode Strong Coupling Regime. , 2017, Physical review letters.

[16]  F. Nori,et al.  Microwave photonics with superconducting quantum circuits , 2017, 1707.02046.

[17]  E. Solano,et al.  On-demand microwave generator of shaped single photons , 2017, 1706.06688.

[18]  Franco Nori,et al.  Circuit quantum acoustodynamics with surface acoustic waves , 2017, Nature Communications.

[19]  P. Zoller,et al.  Photonic tensor networks produced by a single quantum emitter , 2017, 1702.02119.

[20]  B. Terhal,et al.  Roads towards fault-tolerant universal quantum computation , 2016, Nature.

[21]  Ofer Firstenberg,et al.  Colloquium: Strongly interacting photons in one-dimensional continuum , 2016, 1603.06590.

[22]  I. Siddiqi,et al.  A near–quantum-limited Josephson traveling-wave parametric amplifier , 2015, Science.

[23]  J. Cirac,et al.  Deterministic Generation of Arbitrary Photonic States Assisted by Dissipation. , 2015, Physical review letters.

[24]  Anton Frisk Kockum,et al.  Designing frequency-dependent relaxation rates and Lamb shifts for a giant artificial atom , 2014, 1406.0350.

[25]  J Casanova,et al.  Fermion-fermion scattering in quantum field theory with superconducting circuits. , 2014, Physical review letters.

[26]  A. F. Kockum,et al.  Propagating phonons coupled to an artificial atom , 2014, Science.

[27]  Barry C. Sanders,et al.  Photon-Mediated Interactions Between Distant Artificial Atoms , 2013, Science.

[28]  Barry C. Sanders,et al.  Input-output theory for waveguide QED with an ensemble of inhomogeneous atoms , 2013, 1305.7135.

[29]  T. Palomaki,et al.  Microwave quantum optics with an artificial atom in one-dimensional open space , 2012, 1210.4303.

[30]  T. Palomaki,et al.  Demonstration of a single-photon router in the microwave regime. , 2011, Physical review letters.

[31]  Jerry Chow,et al.  Detecting highly entangled states with a joint qubit readout , 2010 .

[32]  O. Astafiev,et al.  Resonance Fluorescence of a Single Artificial Atom , 2010, Science.

[33]  J. Rarity,et al.  Photonic quantum technologies , 2009, 1003.3928.

[34]  H. J. Kimble,et al.  The quantum internet , 2008, Nature.

[35]  S. Girvin,et al.  Charge-insensitive qubit design derived from the Cooper pair box , 2007, cond-mat/0703002.

[36]  S. Girvin,et al.  Cavity quantum electrodynamics for superconducting electrical circuits: An architecture for quantum computation , 2004, cond-mat/0402216.

[37]  Pete Smith The current state of play , 1982, Behavioral and Brain Sciences.

[38]  Tsuyoshi Takagi,et al.  International Symposium on Mathematics, Quantum Theory, and Cryptography , 2021 .

[39]  Maira Amezcua,et al.  Quantum Optics , 2012 .

[40]  R. Dicke Coherence in Spontaneous Radiation Processes , 1954 .