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Équipe de Recherche en Physique de l'Information Quantique



Publications


2018
[16]
A. Bolt and D. Poulin and T. M. Stace,
Decoding Schemes for Foliated Sparse Quantum Error Correcting Codes ,
Phys. Rev. A, 98, (062302), 2018,
[bib] [pdf]
[15]
A. J. Landig, J. V. Koski, P. Scarlino, U. C. Mendes, A. Blais, C. Reichl, W. Wegscheider, A. Wallraff, K. Ensslin, T. Ihn,
Coherent spin--photon coupling using a resonant exchange qubit,
Nature, 2018,
[bib] [pdf] [url]
[14]
Andrew S. Darmawan and David Poulin,
An ecient general decoding algorithm for the surface code,
Phys. Rev. E, 97, (051302(R)), 2018,
[bib] [pdf] [eprint]
[13]
Antoine Grospellier and Anirudh Krishna ,
Numerical study of hypergraph product codes,
2018,
[bib] [pdf] [eprint]
[12]
B. Royer, A.L. Grimsmo, A. Choquette-Poitevin, A. Blais,
Itinerant Microwave Photon Detector,
Phys. Rev. Lett., 120, (203602), 2018,
[bib] [pdf] [url]
[11]
Baptiste Royer, Shruti Puri and Alexandre Blais,
Qubit parity measurement by parametric driving in circuit QED,
Science Advances, 4, 2018,
[bib] [pdf] [url] [eprint]
[10]
Benjamin Bourassa and Maxime Tremblay and David Poulin ,
Convolutional Polar Codes on Channels with Memory,
2018,
[bib] [pdf] [eprint]
[9]
Christopher Chamberland and Pavithran Iyer and David Poulin,
Fault-Tolerant Quantum Computing in the Pauli or Clifford Frame with Slow Error Diagnostics,
Quantum, 2, (43), 2018,
[bib] [pdf] [eprint]
[8]
David Poulin and Alexei Kitaev and Damian S. Steiger and Matthew B. Hastings and Matthias Troyer,
Quantum Algorithm for Spectral Measurement with a Lower Gate Count,
Phys. Rev. Lett, 121, (010501), 2018,
[bib] [pdf] [eprint]
[7]
Jeongwan Haah and Matthew B. Hastings and David Poulin and Dave Wecker,
Magic State Distillation at Intermediate Size,
Quantum Inf. Comput., 18, (114), 2018,
[bib] [pdf] [eprint]
[6]
Kurpiers, P. and Magnard, P. and Walter, T. and Royer, B. and Pechal, M. and Heinsoo, J. and Salathé, Y. and Akin, A. and Storz, S. and Besse, J. -C. and Gasparinetti, S. and Blais, A. and Wallraff, A.,
Deterministic quantum state transfer and remote entanglement using microwave photons,
Nature, 558, (264--267), 2018,
[bib] [pdf] [url]
[5]
Maxime Tremblay and Benjamin Bourassa and David Poulin ,
Depth versus Breadth in Convolutional Polar Codes,
2018,
[bib] [eprint]
[4]
N. Samkharadze, G. Zheng, N. Kalhor, D. Brousse, A. Sammak, U. C. Mendes, A. Blais, G. Scappucci and L. M. K. Vandersypen,
Strong spin-photon coupling in silicon,
Science, 359, (1123--1127), 2018,
[bib] [pdf] [url] [eprint]
[3]
P. Groszkowski, A. Di Paolo, A. L. Grimsmo, A. Blais, D. I. Schuster, A. A. Houck, J. Koch,
Coherence properties of the 0-pi qubit,
New Journal of Physics, 20, (043053), 2018,
[bib] [pdf] [url]
[2]
P. Magnard, P. Kurpiers, B. Royer, T. Walter, J.-C. Besse, S. Gasparinetti, M. Pechal, J. Heinsoo, S. Storz, A. Blais, A. Wallraff,
Fast and Unconditional All-Microwave Reset of a Superconducting Qubit,
Phys. Rev. Lett., 121, (060502), 2018,
[bib] [pdf] [url]
[1]
Pavithran Iyer Sridharan and David Poulin,
A Small Quantum Computer is Needed to Optimize Fault-Tolerant Protocols,
Quantum Sci. Technol., 3, (030504), 2018,
[bib] [pdf] [eprint]