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Équipe de Recherche en Physique de l'Information Quantique



Publications


2019
[10]
Agustin Di Paolo, Arne L Grimsmo, Peter Groszkowski, Jens Koch and Alexandre Blais,
Control and coherence time enhancement of the 0 extendash$uppi$ qubit,
New Journal of Physics, 21, (043002), 2019,
[bib] [pdf] [url]
[9]
Ben Sussman, Paul Corkum, Alexandre Blais, David Cory and Andrea Damascelli,
Quantum Canada,
Quantum Science and Technology, 4, (020503), 2019,
[bib] [pdf] [url]
[8]
C. Walsh and P. Sémon and D. Poulin and G. Sordi and A. -M. S. Tremblay,
Thermodynamic and information-theoretic description of the Mott transition in the two-dimensional Hubbard model,
Phys. Rev. B, 99, (075122), 2019,
[bib] [pdf] [eprint]
[7]
C. Walsh and P. Sémon and D. Poulin and G. Sordi and A. -M. S. Tremblay,
Entanglement entropy and mutual information across the Mott transition in the two-dimensional Hubbard model,
Phys. Rev. Lett., 122, (067203), 2019,
[bib] [pdf] [eprint]
[6]
Christian Kraglund Andersen, Archana Kamal, Nicholas A. Masluk, Ioan M. Pop, Alexandre Blais and Michel H. Devoret,
Quantum versus classical switching dynamics of driven-dissipative Kerr resonators,
arXiv e-prints, (arXiv:1906.10022), 2019,
[bib] [pdf] [eprint]
[5]
David Poulin and Roger G. Melko and Matthew B. Hastings,
Self-correction in Wegner’s 3D Ising lattice gauge theory,
Phys. Rev. B, 99, (094103), 2019,
[bib] [pdf] [eprint]
[4]
S. Puri, L. St-Jean, J. Gross, A. Grimm, N.E. Frattini, P. Iyer, A. Krishna, S. Touzard, L. Jiang, A. Blais, S. Flammia, S.M. Girvin,
Bias-preserving gates with stabilized cat qubits,
arXiv e-prints, (arXiv:1905.00450), 2019,
[bib] [pdf] [eprint]
[3]
T. M Hazard, A. Gyenis, A. Di Paolo, A. T. Asfaw, S. A Lyon, A. Blais, A. A. Houck,
Nanowire Superinductance Fluxonium Qubit,
Phys. Rev. Lett., 122, (010504), 2019,
[bib] [pdf] [url]
[2]
U.C. Mendes, S. Jezouin, P. Joyez, B. Reulet, A. Blais, F. Portier, C. Mora and C. Altimiras,
Parametric amplification and squeezing with an ac- and dc-voltage biased superconducting junction,
Phys. Rev. Applied, 11, (034035), 2019,
[bib] [pdf] [url]
[1]
Ye-Hua Liu and David Poulin,
Neural Belief-Propagation Decoders for Quantum Error-Correcting Codes,
Phys. Rev. Lett., 122, (200501), 2019,
[bib] [pdf] [eprint]