Quantum-enabled millimetre wave to optical transduction using neutral atoms

[1]  P. Zoller,et al.  Practical quantum advantage in quantum simulation , 2022, Nature.

[2]  S. Mittal,et al.  Superconducting-qubit readout via low-backaction electro-optic transduction , 2022, Nature.

[3]  K. Liao,et al.  High-efficiency coherent microwave-to-optics conversion via off-resonant scattering , 2022, Nature Photonics.

[4]  Benjamin J. Brown,et al.  Low-overhead fault-tolerant quantum computing using long-range connectivity. , 2021, Science advances.

[5]  J. Fink,et al.  Quantum-enabled interface between microwave and telecom light , 2021, 2107.08303.

[6]  H. Tang,et al.  Bidirectional electro-optic conversion reaching 1% efficiency with thin film lithium niobate , 2020, 2021 Conference on Lasers and Electro-Optics (CLEO).

[7]  O. Painter,et al.  Superconducting qubit to optical photon transduction , 2020, Nature.

[8]  A. Clerk,et al.  Hybrid quantum systems with circuit quantum electrodynamics , 2020 .

[9]  D. Schuster,et al.  A tunable high-Q millimeter wave cavity for hybrid circuit and cavity QED experiments , 2019, Applied Physics Letters.

[10]  John C. Platt,et al.  Quantum supremacy using a programmable superconducting processor , 2019, Nature.

[11]  M. Spiropulu,et al.  Perspectives on quantum transduction , 2019, Quantum Science and Technology.

[12]  M. Saffman,et al.  Microwave to optical conversion with atoms on a superconducting chip , 2019, New Journal of Physics.

[13]  A. Fiore,et al.  Microwave-to-optics conversion using a mechanical oscillator in its quantum ground state , 2018, Nature physics.

[14]  J. Simon,et al.  Theory of interacting cavity Rydberg polaritons , 2018, Quantum Science and Technology.

[15]  Alexandros Georgakopoulos,et al.  A strongly interacting polaritonic quantum dot , 2017, 1705.07475.

[16]  Charles S. Adams,et al.  ARC: An open-source library for calculating properties of alkali Rydberg atoms , 2016, Comput. Phys. Commun..

[17]  Eric R. Anschuetz,et al.  Atom-by-atom assembly of defect-free one-dimensional cold atom arrays , 2016, Science.

[18]  Jacob M. Taylor,et al.  Figures of merit for quantum transducers , 2016, Quantum Science and Technology.

[19]  Bing Qi,et al.  Practical challenges in quantum key distribution , 2016, npj Quantum Information.

[20]  G. Kurizki,et al.  Quantum technologies with hybrid systems , 2015, Proceedings of the National Academy of Sciences.

[21]  R. W. Andrews,et al.  Bidirectional and efficient conversion between microwave and optical light , 2013, Nature Physics.

[22]  Erik Lucero,et al.  Minimizing quasiparticle generation from stray infrared light in superconducting quantum circuits , 2011 .

[23]  V. Vuletić,et al.  Interaction between Atomic Ensembles and Optical Resonators: Classical Description , 2011, 1104.3594.

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