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Alexandre Blais

Professeur, INSTITUT QUANTIQUE

Présentation

Sujet de recherche

Phénomènes quantiques, Nanosystèmes, Supraconducteurs, Interactions rayonnement-matière, Optique et photonique

Disciplines de recherche

Physique

Mots-clés

Décohérence, Électrodynamique quantique en circuit, Enchevêtrement, Information quantique, Matière condensée, Optique quantique, Physique mésoscopique

Intérêts de recherche

Effets macroscopiques quantiques et calcul quantique dans l'architecture d'électrodynamique quantique en circuit (CQED). Méthodes numériques pour la simulation efficace de systèmes quantiques.

Langues parlées et écrites

Anglais, Français

Diplômes

(2005). (Postdoctorat, Post-doctorat). Yale University.

(2002). (Doctorat, PhD). Université de Sherbrooke.

(1999). (Maîtrise avec mémoire, M.Sc). Université de Sherbrooke.

(1997). (Baccalauréat, B.Sc.). Université de Sherbrooke.

Prix et distinctions

  • (2021) Member of the inaugural cohort of the College of the Royal Society of Canada. Royal Society of Canada. (Distinction).
  • (2010) Prix de la recherche et de la création. Université de Sherbrooke. (Prix).
  • (2004) NSERC Postdoctoral Fellowship. Conseil de recherches en sciences naturelles et en génie (CRSNG). (Distinction).
  • (2004) NSERC Doctoral Prize. Conseil de recherches en sciences naturelles et en génie (CRSNG). (Prix).
  • (2004) Prix du Vice-Rectorat à la recherche. Université de Sherbrooke. (Prix).
  • Brockhouse Medal. Canadian association of physicist. (Prix).
  • CAP Herzberg Medal. Canadian association of physicists. (Prix).
  • Fellow of the American Physical Society. American Physical Society. (Honneur).
  • Guggenheim Fellow. John Simon Guggenheim Memorial Foundation. (Honneur).
  • NSERC E.W.R Steacie Memorial Fellowship. Conseil de recherches en sciences naturelles et en génie (CRSNG). (Prix).
  • Outstanding Referee. American Physical Society (APS). (Distinction).
  • Prix Urgel-Archambault. Association francophone pour le savoir (ACFAS). (Prix).
  • Rutherford Memorial Medal. Royal Society of Canada. (Prix).
  • Sloan Research Fellowships. Alfred P. Sloan Foundation. (Prix).
  • Teaching award. Université de Sherbrooke. (Distinction).

Financement

  • Subvention. (Obtenu). Cochercheur. Superconducting circuits for modular creation of surface code entanglement. IARPA. 22 950 000 $. (2023-2027)
  • Subvention. (Obtenu). Cochercheur. Extensible and Modular Advanced Qubits. Army Research Office. 11 400 000 $. (2023-2027)
  • Subvention. (Obtenu). Cochercheur. High-fidelity quantum architecture based on fluxonium qubits. Army Research Office. 5 070 000 $. (2023-2027)
  • Subvention. (Obtenu). Cochercheur. New Hybrid Device Technology for Intrinsically Protected Superconducting Qubits. Army Research Office. 1 383 273 $. (2022-2026)
  • Chaire de recherche. (Obtenu). Chercheur principal. Research Chair in Quantum Computing Architectures. Ministère de l’Économie, de l’Innovation et de l’Énergie du Québec. 2 150 000 $. (2023-2026)
  • Subvention. (Obtenu). Cochercheur. Quantum System Accelerator. Department of Energy. Quantum system accelerator. 115 000 000 $. (2021-2025)
  • Subvention. (Obtenu). Cocandidat. Bridging the Gap between Quantum Science and Quantum Technologies. Conseil de Recherches en Sciences Naturelles et Génie du Canada (CRSNG). Collaborative Research and Training Experience Program (CREATE). 1 650 000 $. (2018-2024)
  • Subvention. (Obtenu). Candidat principal. Quantum optics and quantum computing with superconducting qubits. Conseil de Recherches en Sciences Naturelles et Génie du Canada (CRSNG). Discovery grant. 450 000 $. (2019-2024)
  • Chaire de recherche. (Obtenu). Candidat principal. Chaire de recherche en architecture d'ordinateurs quantiques. Ministère de l'Économie et de l'Innovation du Québec. 1 050 000 $. (2020-2023)
  • Chaire de recherche. (Obtenu). Candidat principal. Chaire de recherche en architecture d'ordinateurs quantiques. Fonds de recherche du Québec - Nature et technologies (FRQNT). 300 000 $. (2020-2023)
  • Subvention. (Obtenu). Cochercheur. Institut Transdisciplinaire d’Information Quantique. Fonds de Recherche du Québec pour la Nature et la Technologie. Strategic cluster. 2 880 000 $. (2017-2023)
  • Subvention. (Obtenu). Candidat principal. From Quantum Science to Quantum Technology. Canada First Research Excellence Fund. 33 500 000 $. (2015-2022)
  • Subvention. (Terminé). Candidat principal. DND/NSERC Discovery Grant Supplements. Conseil de Recherches en Sciences Naturelles et Génie du Canada (CRSNG). Discovery grants supplements. 120 000 $. (2019-2022)
  • Subvention. (Terminé). Cocandidat. High Performance Superconducting Qubit Technology and Engineering Research. Army Reasearch office. 2 600 000 $. (2018-2022)
  • Subvention. (Obtenu). Cocandidat. Chaîne d'innovation intégrée our la prospérité numérique. Ministère de l'Économie, Science et Innovation (MESI). 20 500 000 $. (2018-2019)
  • Subvention. (Terminé). Chercheur principal. Institut quantique: A collaborative research facility. Fondation Canadienne pour l'Innovation (FCI). Innovation Fund. 13 000 000 $. (2018-2019)
  • Contrat. (Terminé). Chercheur principal. Superconducting qubit-based architecture for quantum computing. Conseil National de Recherches du Canada (CNRC) (Ottawa, ON). 100 000 $. (2018-2018)
  • Contrat. (Terminé). Chercheur principal. Canadian Landscape in Solid-State Quantum Computer Architectures. Conseil National de Recherches du Canada (CNRC) (Ottawa, ON). 100 000 $. (2017-2017)
  • Subvention. (Terminé). Cochercheur. Institut transdisciplinaire d'information quantique (INTRIQ). Fonds de Recherche du Québec pour la Nature et la Technologie. Strategic grant. 240 000 $. (2015-2017)

Publications

Articles de revue

  • Petrescu, Alexandru and Le Calonnec, Camille and Leroux, Catherine and Di Paolo, Agustin and Mundada, Pranav and Sussman, Sara and Vrajitoarea, Andrei and Houck, Andrew A and Blais, Alexandre. (2023). Accurate methods for the analysis of strong-drive effects in parametric gates. Physical Review Applied 19 (4), 044003. (Article publié).
  • C. Leroux and A. Blais. (2023). Cat-qubit-inspired gate on cos(2 theta) qubits. arXiv:2304.02155 (Article soumis).
  • F. Swiadek, R. Shillito, P. Magnard, A. Remm, C. Hellings, N. Lacroix, Q. Ficheux, D. C. Zanuz, G. Norris, A. Blais, S. Krinner, A. Wallraff. (2023). Enhancing Dispersive Readout of Superconducting Qubits Through Dynamic Control of the Dispersive Shift: Experiment and Theory. arXiv:2307.07765 (Article soumis).
  • Storz, Simon and Sch{\"a}r, Josua and Kulikov, Anatoly and Magnard, Paul and Kurpiers, Philipp and L{\"u}tolf, Janis and Walter, Theo and Copetudo, Adrian and Reuer, Kevin and Akin, Abdulkadir and others. (2023). Loophole-free Bell inequality violation with superconducting circuits. Nature 617 (Article publié).
  • M. H. Muñoz-Arias, C. Lledó, A. Blais. (2023). Qubit readouts enabled by qubit cloaking. arXiv:2305.00895 (Article soumis).
  • Cohen, Joachim and Petrescu, Alexandru and Shillito, Ross and Blais, Alexandre. (2023). Reminiscence of classical chaos in driven transmons. PRX Quantum 4 (2), 020312. (Article publié).
  • Asfaw, Abraham and Blais, Alexandre and Brown, Kenneth R and Candelaria, Jonathan and Cantwell, Christopher and Carr, Lincoln D and Combes, Joshua and Debroy, Dripto M and Donohue, John M and Economou, Sophia E and others. (2022). Building a quantum engineering undergraduate program. IEEE Transactions on Education 65 (2), 220--242. (Article publié).
  • Lledo, Cristobal and Dassonneville, Remy and Moulinas, Adrien and Cohen, Joachim and Shillito, Ross and Bienfait, Audrey and Huard, Benjamin and Blais, Alexandre. (2022). Cloaking a qubit in a cavity. Nature Communications [arXiv:2211.05758] (Article accepté).
  • Shillito, Ross and Petrescu, Alexandru and Cohen, Joachim and Beall, Jackson and Hauru, Markus and Ganahl, Martin and Lewis, Adam GM and Vidal, Guifre and Blais, Alexandre. (2022). Dynamics of transmon ionization. Physical Review Applied 18 (3), 034031. (Article publié).
  • Gandon, Anthony and Le Calonnec, Camille and Shillito, Ross and Petrescu, Alexandru and Blais, Alexandre. (2022). Engineering, Control, and Longitudinal Readout of Floquet Qubits. Physical Review Applied 17 (6), 064006. (Article publié).
  • Di Paolo, Agustin and Leroux, Catherine and Hazard, Thomas M and Serniak, Kyle and Gustavsson, Simon and Blais, Alexandre and Oliver, William D. (2022). Extensible circuit-QED architecture via amplitude-and frequency-variable microwaves. arXiv:2204.08098 (Article soumis).
  • Lu, Marie and Ville, Jean-Loup and Cohen, Joachim and Petrescu, Alexandru and Schreppler, Sydney and Chen, Larry and J{\"u}nger, Christian and Pelletti, Chiara and Marchenkov, Alexei and Banerjee, Archan and others. (2022). Multipartite Entanglement in Rabi-Driven Superconducting Qubits. PRX Quantum 3 (4), 040322. (Article publié).
  • Leroux, Catherine and Parra-Rodriguez, Adrian and Shillito, Ross and Di Paolo, Agustin and Oliver, William D and Marcus, Charles M and Kjaergaard, Morten and Gyenis, Andr{\'a}s and Blais, Alexandre. (2022). Nonreciprocal devices based on voltage-tunable junctions. arXiv:2209.06194 (Article soumis).
  • Krinner, Sebastian and Lacroix, Nathan and Remm, Ants and Di Paolo, Agustin and Genois, Elie and Leroux, Catherine and Hellings, Christoph and Lazar, Stefania and Swiadek, Francois and Herrmann, Johannes and others. (2022). Realizing repeated quantum error correction in a distance-three surface code. Nature 605 (7911), 669--674. (Article publié).
  • A. Blais, A.L. Grimsmo, S.M. Girvin and A. Wallraff. (2021). Circuit quantum electrodynamics. Reviews of Modern Physics 93 (2), 025005. (Article publié).
  • Di Paolo, Agustin and Baker, Thomas E and Foley, Alexandre and Sénéchal, David and Blais, Alexandre. (2021). Efficient modeling of superconducting quantum circuits with tensor networks. npj Quantum Information 7 (Article publié).
  • A. Gyenis, P. S. Mundada, A. Di Paolo, T. Hazard, X. You, D. Schuster, J. Koch, A. Blais, A. A. Houck. (2021). Experimental realization of a protected superconducting circuit derived from the 0--$\pi$ qubit. PRX Quantum 2 (1), 010339. (Article publié).
  • Shillito, Ross and Gross, Jonathan A and Di Paolo, Agustin and Genois, {\'E}lie and Blais, Alexandre. (2021). Fast and differentiable simulation of driven quantum systems. Physical Review Research 3 (3), 033266. (Article publié).
  • J. A. Gross, C. Godfrin, A. Blais and E. Dupont-Ferrier. (2021). Hardware-efficient error-correcting codes for large nuclear spins. arXiv:2103.08548 (Révision demandée).
  • A. Gyenis, A. Di Paolo, J. Koch, A. Blais, A. A. Houck, D. Schuster. (2021). Moving beyond the transmon: Noise-protected superconducting quantum circuits. PRX Quantum 2 (3), 030101. (Article publié).
  • Choquette, Alexandre and Di Paolo, Agustin and Barkoutsos, Panagiotis Kl and Sénéchal, David and Tavernelli, Ivano and Blais, Alexandre. (2021). Quantum-optimal-control-inspired ansatz for variational quantum algorithms. Phys. Rev. Research 3 (Article publié).
  • E. Genois, J. A. Gross, A. Di Paolo, N. J. Stevenson, G. Koolstra, A. Hashim, I. Siddiqi, A. Blais. (2021). Quantum-tailored machine-learning characterization of quantum processors. PRX Quantum 2 040355. (Article publié).
  • Grimsmo, Arne L and Royer, Baptiste and Kreikebaum, John Mark and Ye, Yufeng and O’Brien, Kevin and Siddiqi, Irfan and Blais, Alexandre. (2021). Quantum metamaterial for broadband detection of single microwave photons. Physical Review Applied 15 (3), 034074. (Article publié).
  • Leroux, Catherine and Di Paolo, Agustin and Blais, Alexandre. (2021). Superconducting coupler with exponentially large on: off ratio. Physical Review Applied 16 (6), 064062. (Article publié).
  • Puri, Shruti and St-Jean, Lucas and Gross, Jonathan A and Grimm, Alexander and Frattini, Nicholas E and Iyer, Pavithran S and Krishna, Anirudh and Touzard, Steven and Jiang, Liang and Blais, Alexandre and others. (2020). Bias-preserving gates with stabilized cat qubits. Science advances 6 (34), eaay5901. (Article publié).
  • Kalashnikov, Konstantin and Hsieh, Wen Ting and Zhang, Wenyuan and Lu, Wen-Sen and Kamenov, Plamen and Di Paolo, Agustin and Blais, Alexandre and Gershenson, Michael E and Bell, Matthew. (2020). Bifluxon: Fluxon-parity-protected superconducting qubit. PRX Quantum 1 (1), 010307. (Article publié).
  • Krinner, Sebastian and Kurpiers, Philipp and Royer, Baptiste and Magnard, Paul and Tsitsilin, Ivan and Besse, J-C and Remm, Ants and Blais, Alexandre and Wallraff, Andreas. (2020). Demonstration of an all-microwave controlled-phase gate between far-detuned qubits. Physical Review Applied 14 (4), 044039. (Article publié).
  • Lacroix, Nathan and Hellings, Christoph and Andersen, Christian Kraglund and Di Paolo, Agustin and Remm, Ants and Lazar, Stefania and Krinner, Sebastian and Norris, Graham J and Gabureac, Mihai and Heinsoo, Johannes and others. (2020). Improving the performance of deep quantum optimization algorithms with continuous gate sets. PRX Quantum 1 (2), 020304. (Article publié).
  • Magnard, Paul and Storz, Simon and Kurpiers, Philipp and Schär, Josua and Marxer, Fabian and Lütolf, Janis and Walter, Theo and Besse, J-C and Gabureac, Mihai and Reuer, Kevin and others. (2020). Microwave quantum link between superconducting circuits housed in spatially separated cryogenic systems. Phys. Rev. Lett. 125 260502. (Article publié).
  • Blais, Alexandre and Girvin, Steven M and Oliver, William D. (2020). Quantum information processing and quantum optics with circuit quantum electrodynamics. Nature Physics 16 (3), 247--256. (Article publié).
  • Andersen, Christian Kraglund and Kamal, Archana and Masluk, Nicholas A and Pop, Ioan M and Blais, Alexandre and Devoret, Michel H. (2020). Quantum versus classical switching dynamics of driven dissipative kerr resonators. Physical Review Applied 13 (4), 044017. (Article publié).
  • Di Paolo, Agustin and Barkoutsos, Panagiotis Kl and Tavernelli, Ivano and Blais, Alexandre. (2020). Variational quantum simulation of ultrastrong light-matter coupling. Physical Review Research 2 (3), 033364. (Article publié).
  • Scarlino, Pasquale and Van Woerkom, David J and Mendes, Udson C and Koski, Jonne V and Landig, Andreas J and Andersen, Christian Kraglund and Gasparinetti, Simone and Reichl, Christian and Wegscheider, Werner and Ensslin, Klaus and others. (2019). Coherent microwave-photon-mediated coupling between a semiconductor and a superconducting qubit. Nature communications 10 (1), 3011. (Article publié).
  • Paolo, Agustin Di and Grimsmo, Arne L and Groszkowski, Peter and Koch, Jens and Blais, Alexandre. (2019). Control and coherence time enhancement of the 0--$\pi$ qubit. New Journal of Physics 21 (4), 043002. (Article publié).
  • Hazard, TM and Gyenis, ADPA and Di Paolo, Agustin and Asfaw, AT and Lyon, SA and Blais, AAHA and Houck, AA. (2019). Nanowire superinductance fluxonium qubit. Physical review letters 122 (1), 010504. (Article publié).
  • Mendes, Udson C and Jezouin, S{\'e}bastien and Joyez, Philippe and Reulet, Bertrand and Blais, Alexandre and Portier, Fabien and Mora, Christophe and Altimiras, Carles. (2019). Parametric amplification and squeezing with an ac-and dc-voltage biased superconducting junction. Physical Review Applied 11 (3), 034035. (Article publié).
  • Kurpiers, Philipp and Pechal, Marek and Royer, Baptiste and Magnard, Paul and Walter, Theo and Heinsoo, Johannes and Salath{\'e}, Yves and Akin, Abdulkadir and Storz, Simon and Besse, J-C and others. (2019). Quantum communication with time-bin encoded microwave photons. Physical Review Applied 12 (4), 044067. (Article publié).
  • Groszkowski P, *Di Paolo A, *Grimsmo AL, Blais A, Schuster DI, Houck AA and Koch J. (2018). Coherence properties of the 0-pi qubit. New Journal of Physics 20 (4), 043053. (Article publié).
  • P. Scarlino, D. J. van Woerkom, U. C. *Mendes, J. V. Koski, A. J. Landig, C. K. Andersen, S. Gasparinetti, C. Reichl, W. Wegscheider, K. Ensslin, T. Ihn, A. Blais, A. Wallraff. (2018). Coherent microwave photon mediated coupling between a semiconductor and a superconductor qubit. arXiv:1806.10039 (Article soumis).
  • Landig AJ, Koski JV, Scarlino P, *Mendes UC, Blais A, Reichl C, Wegscheider W, Wallraff A, Ensslin K and Ihn, T. (2018). Coherent spin-qubit photon coupling. Nature 560 179. (Article publié).
  • Kurpiers P, Magnard P, Walter T, *Royer B, Pechal M, Heinsoo J, Salathé Y, Akin A, Storz S, Besse J -C, Gasparinetti S, Blais A and Wallraff A. (2018). Deterministic quantum state transfer and remote entanglement using microwave photons. Nature 558 264-267. (Article publié).
  • Paul Magnard, Philipp Kurpiers, Baptiste *Royer, Theo Walter, Jean-Claude Besse, Simone Gasparinetti, Marek Pechal, Johannes Heinsoo, Simon Storz, Alexandre Blais, Andreas Wallraff. (2018). Fast and Unconditional All-Microwave Reset of a Superconducting Qubit. Phys. Rev. Lett. 121 060502. (Article publié).
  • *Royer B, *Grimsmo AL, *Choquette-Poitevin A and Blais A. (2018). Itinerant microwave photon detector. Physical review letters 120 (20), 203602. (Article publié).
  • *Mendes UC, Joyez P, Reulet B, Blais A, Portier F, Mora C and Altimiras C. (2018). Parametric amplification and squeezing with ac-and dc-voltage biased superconducting junction. Phys. Rev. Applied [arXiv:1802.07323] (Article soumis).
  • Ben Sussman, Paul Corkum, Alexandre Blais, David Cory, Andrea Damascelli. (2018). Quantum Canada. Quantum Science and Technology (Article soumis).
  • Royer, Baptiste and Puri, Shruti and Blais, Alexandre. (2018). Qubit parity measurement by parametric driving in circuit QED. Science advances 4 (11), eaau1695. (Article publié).
  • Samkharadze N, Zheng G, Kalhor N, Brousse D, Sammak, A, *Mendes UC, Blais A, Scappucci G and Vandersypen LMK. (2018). Strong spin-photon coupling in silicon. Science 359 (6380), 1123--1127. (Article publié).
  • *Boutin S, Toyli DM, Venkatramani AV, Eddins AW, Siddiqi I and Blais A. (2017). Effect of higher-order nonlinearities on amplification and squeezing in josephson parametric amplifiers. Physical Review Applied 8 (5), 054030. (Article publié).
  • *Puri S, *Boutin S and Blais A. (2017). Engineering the quantum states of light in a Kerr-nonlinear resonator by two-photon driving. npj Quantum Information 3 (1), 18. (Article publié).
  • *Royer B, *Grimsmo A L, *Didier N and Blais A. (2017). Fast and high-fidelity entangling gate through parametrically modulated longitudinal coupling. Quantum 1 11. (Article publié).
  • F. Beaudoin, A. Blais and WA Coish. (2017). Hamiltonian engineering for robust quantum state transfer and qubit readout in cavity QED. New Journal of Physics 19 (2), 023041. (Article publié).
  • *Puri S, *Andersen CK, *Grimsmo A L, Blais A. (2017). Quantum annealing with all-to-all connected nonlinear oscillators. Nature communications 8 15785. (Article publié).
  • *Boutin S, *Andersen CK, *Venkatraman, J, *Ferris A and Blais A. (2017). Resonator reset in circuit QED by optimal control for large open quantum systems. Physical Review A 96 (4), 042315. (Article publié).
  • *Grimsmo A L and Blais A. (2017). Squeezing and quantum state engineering with Josephson travelling wave amplifiers. npj Quantum Information 3 (1), 20. (Article publié).
  • *Andersen C K, and Blais A. (2017). Ultrastrong coupling dynamics with a transmon qubit. New Journal of Physics 19 (2), 023022. (Article publié).
  • Chapman B J, Rosenthal E I, Kerckhoff J, Moores B A, Vale L R, Mates JAB, Hilton G C, *Lalumiere K, Blais A and Lehnert KW. (2017). Widely tunable on-chip microwave circulator for superconducting quantum circuits. Physical Review X 7 (4), 041043. (Article publié).
  • *Puri S and Blais A. (2016). High-fidelity resonator-induced phase gate with single-mode squeezing. Physical review letters 116 180501. (Article publié).
  • *Grimsmo A L, *Qassemi F, Reulet B, and Blais A. (2016). Quantum Optics Theory of Electronic Noise in Coherent Conductors. Physical review letters 116 (4), 043602. (Article publié).
  • Slichter DH, *Müller C, Vijay R, Weber SJ, Blais A and Siddiqi I. (2016). Quantum Zeno effect in the strong measurement regime of circuit quantum electrodynamics. New Journal of Physics 18 053031. (Article publié).
  • DM Toyli, A W Eddins, S Boutin*, S Puri*, D Hover, V Bolkhovsky, W D Oliver, A Blais and I Siddiqi,. (2016). Resonance Fluorescence from an Artificial Atom in Squeezed Vacuum. Physical Review X 6 031004. (Article publié).
  • *Didier N, *Bourassa J and Blais A. (2015). Fast Quantum Nondemolition Readout by Parametric Modulation of Longitudinal Qubit-Oscillator Interaction. Physical Review Letters 115 203601. (Article publié).
  • *Didier N, Kamal A, Oliver WD, Blais A and Clerk AA. (2015). Heisenberg-Limited Qubit Read-Out with Two-Mode Squeezed Light. Physical Review Letters 115 (9), (Article accepté).
  • Kerckhoff J, *Lalumiere K, Chapman BJ, Blais A and Lehnert KW. (2015). On-chip superconducting microwave circulator from synthetic rotation. Physical Review Applied 4 (3), 034002. (Article publié).
  • Schmitt V, Zhou X, Juliusson K, *Royer B, Blais A, Bertet P, Vion D, Esteve D. (2014). Multiplexed readout of transmon qubits with Josephson bifurcation amplifiers. Physical Review A - Atomic, Molecular, and Optical Physics 90 (6), (Article publié).
  • *Didier N, *Qassemi F and Blais A. (2014). Perfect squeezing by damping modulation in circuit quantum electrodynamics. Physical Review A 89 (1), (Article publié).
  • *Boissonneault M, Doherty AC. Ong FR, Bertet P, Vion D, Esteve D, Blais A. (2014). Superconducting qubit as a probe of squeezing in a nonlinear resonator. Physical Review A 89 (2), 022324. (Article publié).
  • *Lalumiere K and Blais A. (2014). Viewpoint: Remote Controlled Entanglement. Physics 7 45. (Article publié).
  • Lang C, Eichler C, Steffen L, Fink JM, *Woolley MJ, Blais A, Wallraff A. (2013). Correlations, indistinguishability and entanglement in Hong–Ou–Mandel experiments at microwave frequencies. Nature Physics 9 345-348. (Article publié).
  • Strand JD, Ware M, *Beaudoin F, Ohki TA, Johnson BR, Blais A, Plourde BLT. (2013). First-order sideband transitions with flux-driven asymmetric transmon qubits. Physical Review B 87 (22), 220505(R) 1-5. (Article publié).
  • *Lalumière K, Sanders BC, van Loo AF, Fedorov A, Wallraff A, Blais A. (2013). Input-output theory for waveguide QED with an ensemble of inhomogeneous atoms. Phys. Rev. A 88 043806. (Article publié).
  • A van Loo, Fedorov K. *Lalumiere, B. Sanders, A. Blais and A. Wallraff. (2013). Photon-mediated interactions between distant artificial atoms. Science 342 1494. (Article publié).
  • Ong FR, *Boissonneault M, Mallet F, Doherty AC, Blais A, Vion D, Esteve D, Bertet P. (2013). Quantum Heating of a Nonlinear Resonator Probed by a Superconducting Qubit. Physical Review Letter 110 047001. (Article publié).
  • *Woolley MJ, Lang C, Eichler C, Wallraff A, Blais A. (2013). Signatures of Hong-Ou-Mandel Interference at Microwave Frequencies. New Journal of Physics 15 105025. (Article publié).
  • *Boissonneault M, Doherty AC, Ong FR, Bertet P, Vion D, Esteve D, Blais A. (2012). Back-action of a driven nonlinear resonator on a superconducting qubit. Physical Review A 85 022305. (Article publié).
  • Frey T, Leek PJ, Beck M, Blais A, Ihn T, Ensslin K, Wallraff A. (2012). Dipole Coupling of a Double Quantum Dot to a Microwave Resonator. Physical Review Letters 108 046807. (Article publié).
  • *Beaudoin F, da Silva M, Dutton Z, Blais A. (2012). First-order sidebands in circuit QED using qubit frequency modulation. Physical Review A 86 022305. (Article publié).
  • *Boissonneault M, Gambetta JM, Blais A. (2012). Improved qubit bifurcation readout in the straddling regime of circuit QED. Physical Review A 86 022326. (Article publié).
  • *Bourassa J, *Beaudoin F, Gambetta JM, Blais A. (2012). Josephson-junction-embedded transmission-line resonators: From Kerr medium to in-line transmon. Physical Review A 86 013814. (Article publié).
  • Slichter DH, Vijay R, Weber SJ, *Boutin S, *Boissonneault M, Gambetta JM, Blais A, Siddiqi I. (2012). Measurement-Induced Qubit State Mixing in Circuit QED from Up-Converted Dephasing Noise. Physical Review Letters 109 153601. (Article publié).
  • *Denhez G, Blais A, Poulin D. (2012). Quantum-error-correction benchmarks for continuous weak-parity measurements. Physical Review A 86 032318. (Article publié).
  • Ong FR, *Boissonneault M, Mallet F, Palacios-Laloy A, Dewes A, Doherty AC, Blais A, Bertet P, Vion D, Esteve D. (2011). Circuit QED with a Nonlinear Resonator: ac-Stark Shift and Dephasing. Physical Review Letters 106 167002. (Article publié).
  • *Beaudoin F, Gambetta JM, Blais A. (2011). Dissipation and ultrastrong coupling in circuit QED. Physical Review A 84 043832. (Article publié).
  • Lang C, Bozyigit D, Eichler C, Steffen L, Fink JM, Abdumalikov AA Jr, Baur M, Filipp S, *da Silva MP, Blais A, Wallraff A. (2011). Observation of Resonant Photon Blockade at Microwave Frequencies Using Correlation Function Measurements. Physical Review Letters 106 243601. (Article publié).
  • Gambetta JM, Houck AA, Blais A. (2011). Superconducting Qubit with Purcell Protection and Tunable Coupling. Physical Review Letters 106 030502. (Article publié).
  • Blais A. (2011). Superconductivity-based artificial atoms for quantum information Invited review article for the special issue celebrating a 100 years of superconductivity. Physics in Canada/La physique au Canada 67 123. (Article publié).
  • Bozyigit D, Lang C, Steffen L, Fink JM, Eichler C, Baur M, Bianchetti R, Leek PJ, Filipp S, *da Silva MP, Blais A, Wallraff A. (2010). Antibunching of microwave-frequency photons observed in correlation measurements using linear detectors. Nature Physics 7 154. (Article publié).
  • Bianchetti R, Filipp S, Baur M, Fink JM, Lang C, Steffen L, *Boissonneault M, Blais A, Wallraff A. (2010). Control and Tomography of a Three Level Superconducting Artificial Atom. Physical Review Letters 105 223601. (Article publié).
  • Joo J, *Bourassa J, Blais A, Sanders BC. (2010). Electromagnetically Induced Transparency with Amplification in Superconducting Circuits. Physical Review Letters 105 073601. (Article publié).
  • *Boissonneault M, Gambetta JM, Blais A. (2010). Improved Superconducting Qubit Readout by Qubit-Induced Nonlinearities. Physical Review Letters 105 100504. (Article publié).
  • *da Silva MP, Bozyigit D, Wallraff A, Blais A. (2010). Schemes for the observation of photon correlation functions in circuit QED with linear detectors. Physical Review A 82 043804. (Article publié).
  • *Lalumière K, Gambetta JM, Blais A. (2010). Tunable joint measurements in the dispersive regime of cavity QED. Physical Review A 81 040301. (Article publié).
  • DiCarlo L, Chow JM, Gambetta JM, Bishop LS, Johnson BR, Schuster DI, Majer J, Blais A, Frunzio L, Girvin SM, Schoelkopf RJ. (2009). Demonstration of Two-Qubit Algorithms with a Superconducting Quantum Processor. Nature 460 240-244. (Article publié).
  • DiCarlo L, Chow JM, Gambetta JM, Bishop LS, Johnson BR, Schuster DI, Majer J, Blais A, Frunzio L, Girvin SM, Schoelkopf RJ. (2009). Demonstration of two-qubit algorithms with a superconducting quantum processor L. DiCarlo, J. M. Chow, J. M. Gambetta, Lev S. Bishop, B. R. Johnson, + et al. Nature 460 240-244. (Article publié).
  • *Boissonneault M, Gambetta JM, Blais A. (2009). Dispersive regime of circuit QED: Photon-dependent qubit dephasing and relaxation rates. Physical Review A 79 013819. (Article publié).
  • Fink JM, Bianchetti R, Baur M, Göppl M, Steffen L, Filipp S, Leek PJ, Blais A, Wallraff A. (2009). Dressed Collective Qubit States and the Tavis-Cummings Model in Circuit QED. Physical Review Letters 103 083601. (Article publié).
  • Bianchetti R, Filipp S, Baur M, Fink JM, Göppl M, Leek PJ, Steffen L, Blais A, , Wallraff A. (2009). Dynamics of dispersive single-qubit readout in circuit quantum electrodynamics. Physical Review A 80 043840. (Article publié).
  • Baur M, Filipp S, Bianchetti R, Fink JM, Göppl M, Steffen L, Leek PJ, Blais A, Wallraff A. (2009). Measurement of Autler-Townes and Mollow Transitions in a Strongly Driven Superconducting Qubit. Physical Review Letters 102 243602. (Article publié).
  • Hutchison CL, Gambetta JM, Blais A, Wilhelm FK. (2009). Quantum trajectory equation for multiple qubits in circuit QED. Canadian Journal of Physics 87 (3), 225-231. (Article publié).
  • Fink JM, Baur M, Bianchetti R, Filipp S, Goppl M, Leek PJ, Steffen L, Blais A, Wallraff A. (2009). Thermal excitation of multi-photon dressed states in circuit quantum electrodynamics. Physica Scripta 2009 (T137), 014013/1-8. (Article publié).
  • Filipp S, Maurer P, Leek PJ, Baur M, Bianchetti R, Fink JM, Göppl M, Steffen L, Gambetta JM, Blais A, Wallraff A. (2009). Two-Qubit State Tomography Using a Joint Dispersive Readout. Physical Review Letters 102 200402. (Article publié).
  • *Bourassa J, Gambetta JM, Abdumalikov AA Jr, Astafiev O, Nakamura Y, Blais A. (2009). Ultrastrong coupling regime of cavity QED with phase-biased flux qubits. Physical Review A 80 032109. (Article publié).
  • Fink JM, Göppl M, Baur M, Bianchetti R, Leek PJ, Blais A, Wallraff. A. (2008). Climbing the Jaynes–Cummings ladder and observing its nonlinearity in a cavity QED system. Nature 454 315-318. (Article publié).
  • Blais A, Gambetta JM. (2008). Filling a cavity with photons, and watching them leave. Physics 1 39. (Article publié).
  • *Boissonneault M, Gambetta JM, Blais A. (2008). Nonlinear dispersive regime of cavity QED: The dressed dephasing model. Physical Review A 77 060305 (R). (Article publié).
  • Gambetta JM, Blais A, *Boissonneault M, Houck AA, Schuster DI, Girvin SM. (2008). Quantum trajectory approach to circuit QED: Quantum jumps and the Zeno effect Jay Gambetta, Alexandre Blais, M. Physical Review A 77 012112. (Article publié).
  • Xue P, Sanders BC, Blais A, *Lalumière K. (2008). Quantum walks on circles in phase space via superconducting circuit quantum electrodynamics. Physical Review A 78 042334. (Article publié).
  • Fragner A, Göppl M, Fink JM, Baur M, Bianchetti R, Leek PJ, Blais A, Wallraff A. (2008). Resolving Vacuum Fluctuations in an Electrical Circuit by Measuring the Lamb Shift. Science 322 (5906), 1357-1360. (Article publié).
  • Koch J, Yu T, Gambetta JM, Houck AA, Schuster DI, Majer J, Blais A, Devoret MH, Girvin SM, Schoelkopf RJ. (2007). Charge-insensitive qubit design derived from the Cooper pair box. Physical Review A 76 042319. (Article publié).
  • Leek PJ, Fink JM, Blais A, Bianchetti R, Goppl M, Gambetta JM, Schuster DI, Frunzio L, Schoelkopf RJ, Wallraff A. (2007). Observation of Berry’s Phase in a Solid State Qubit. Science 318 (5858), 1889-1892. (Article publié).
  • A. Blais, J. Gambetta, A. Wallraff, D. Schuster , S. M. Girvin, M. H. Devoret and R. J. Schoelkopf. (2007). Quantum information processing in circuit quantum electrodynamics. Physical Review 75 032329. (Article publié).
  • D. I. Schuster, A. A. Houck, J. A. Schreier, A. Wallraff, J. M. Gambetta, A. Blais, L. Frunzio, B. Johnson, M. H. Devoret, S. M. Girvin and R. J. Schoelkopf. (2007). Resolving photon number states in a superconducting circuit. Nature 445 515. (Article publié).
  • Zagoskin A, Blais A. (2007). Superconducting qubits. Physics in Canada / La physique au Canada 63 (4), 215-227. (Article publié).
  • J. Gambetta, A. Blais, D. Schuster, A. Wallraff, L. Frunzio, J. Majer, S. M. Girvin and R. J. Schoelkopf. (2006). Qubit-photon interactions in a cavity: Measurement induced dephasing and number splitting. Physical Review 74 042318. (Article publié).
  • D. Schuster, A. Wallraff, A. Blais, L. Frunzio, R.-S. Huang, J. Majer, S. M. Girvin and R. J. Schoelkopf. (2005). AC-Stark Shift and Dephasing of a Supercondcuting Qubit Strongly Coupled to a Non-ResonantRadiation Field. Physical Review Letters 94 123602. (Article publié).
  • A. Wallraff, D. Schuster, A. Blais, L. Frunzio, J. Majer, S. M. Girvin and R. J. Schoelkopf. (2005). Approaching Unit Visibility for Control of a Superconducting Qubit with Dispersive Readout. Physical Review Letters 95 060501. (Article publié).
  • C. Rigetti, A. Blais, M. Devoret. (2005). Protocol for universal gates in optimally biased superconducting qubits. Physical Review Letters 94 240502. (Article publié).
  • A. Blais, R.-S. Huang, A. Wallraff, S. M. Girvin and R. J. Schoelkopf. (2004). Strong Cavity Quantum Electrodynamics with Superconducting Circuits: an Architecture for quantum computation. Physical Review A 69 062320. (Article publié).
  • A. Wallraff, D. Schuster, A. Blais, L. Frunzio, R.-S. Huang, J. Majer, S. Kumar, S. M. Girvin and R. J. Schoelkopf. (2004). Strong coupling of a single photon to a superconducting qubit using circuit quantum electrodynamics. Nature 431 162. (Article publié).
  • A Blais. (2003). Algorithmes et architectures pour ordinateurs quantiques supraconducteurs. Annales de Physique 28 (Article publié).
  • A. Blais and A.-M. Tremblay. (2003). Effect of noise on geometric logic gates for quantum computation. Physical Review A 67 (Article publié).
  • A. Blais, A. Maassen van den Brink and A.-M. Zagoskin. (2003). Tunable coupling of superconducting qubits. Physical Review Letters 90 (Article publié).
  • M.H.S. Amin, A.N. Omelyanchouk, A. Blais, A. Maassen van den Brink, G. Rose, T. Duty and A. Zagoksin. (2002). Multi-terminal superconducting phase qubit. Physica C 368 (Article publié).
  • D.A. Lidar, L.-A. Wu and A. Blais. (2002). Simplifying Design and Suppressing Decoherence for Superconducting Phase-Qubit QuantumComputers. Quantum Information Processing 1 (Article publié).
  • A Blais. (2001). Quantum network optimization. Physical Review A 64 (Article publié).
  • P.D. Grant, C. Py, C. Mossner, A. Blais, H. Tran and M. Gao. (2000). Investigation of electron field emission from Diamond-Like Carbon, a correlation with surfacemodifications. Journal of Applied Physics 87 (Article publié).
  • A. Blais and A.M. Zagoskin. (2000). Operation of universal gates in a solid state quantum computer based on clean Josephson junctionsbetween d-wave superconductors. Physical Review A 61 042308. (Article publié).

Chapitres de livre

  • Bertet P, Ong FR, *Boissonneault M, *Bolduc A, Mallet F, Doherty AC, Blais A, Vion D, Esteve D. (2012). Circuit quantum electrodynamics with a nonlinear resonator. Mark Dykman. Fluctuating Nonlinear Oscillators: From Nanomechanics to Quantum Superconducting Circuits (1). Oxford University Press. (Article publié).
  • S. M. Girvin, R.-S. Huang, A. Blais, A. Walraff and R. J. Schoelkopf. (2003). Prospects for Strong Cavity Quantum Electrodynamics with Superconducting Circuits. Quantum Entanglement and Information Processing (Article publié).

Rapports

  • Barclay PE, Blais A, Cory S, *Di Paolo A, Grondin E, Hofheinz M, Jennewein T, Lachance-Quirion D, *Lachapelle M, Lvovsky AL, Mariantoni M, *Mendes M, Oblak D,Pioro-Ladrière M, *Royer B, Sanders BC,Sarra-Bournet C, Simon C, *St-Jean, Wilson C. (2018). Superconducting qubit-based architecture for quantum computing. Conseil national de recherches Canada. 147 p.
  • Blais A, BeaudoinF, Camirand Lemyre J, Chamberland-Tremblay D, *Di Paolo A, *Grimsmo AL, Lachance-Quirion D, Pioro-Ladrière M, *Shruti P, Rochette S, Sarra-Bournet C. (2017). Canadian Landscape in Solid-State Quantum Computer Architectures. Conseil national de recherches Canada. 149 p.

Ressources en ligne

  • Royer, Baptiste and Grimsmo, Arne L and Didier, Nicolas and Blais, Alexandre. Fast and High-Fidelity Entangling Gate through Parametrically Modulated Longitudinal Coupling. Site Web.
  • Slichter, DH and M{\"u}ller, C and Vijay, R and Weber, SJ and Blais, A and Siddiqi, I. Quantum Zeno effect in the strong measurement regime of circuit quantum electrodynamics.

Articles de conférence

  • Scarlino, Pasquale and Van Woerkom, David and Mendes, Udson and Gasparinetti, Simone and Koski, Jonne and Landig, Andreas and Reichl, Christian and Wegscheider, Werner and Ihn, Thomas and Ensslin, Klaus and others. (2018). Coherent Transmon-Charge Qubit Coupling Mediated by Virtual Photon Exchange in a High Impedance Resonator. Bulletin of the American Physical Society, (Article publié).
  • Mendes, Udson and Landig, Andreas and Koski, Jonne and Scarlino, Pasquale and Reichl, Christian and Wegscheider, Werner and Wallraff, Andreas and Ensslin, Klaus and Ihn, Thomas and Blais, Alexandre. (2018). Coherent spin-qubit photon coupling: Part 1. Bulletin of the American Physical Society, (Article publié).
  • Landig, Andreas and Koski, Jonne and Scarlino, Pasquale and Mendes, Udson and Blais, Alexandre and Reichl, Christian and Wegscheider, Werner and Wallraff, Andreas and Ensslin, Klaus and Ihn, Thomas. (2018). Coherent spin-qubit photon coupling: Part 2. Bulletin of the American Physical Society, (Article publié).
  • Kurpiers, Philipp and Magnard, Paul and Walter, Theo and Pechal, Marek and Royer, Baptiste and Heinsoo, Johannes and Salathe, Yves and Akin, Abdulkadir and Storz, Simon and Besse, Jean-Claude and others. (2018). Deterministic Generation of Remote Entanglement using Shaped Single Photons in Circuit Quantum Electrodynamics. Bulletin of the American Physical Society, (Article publié).
  • Kreikebaum, John Mark and O'Brien, Kevin and Grimsmo, Arne and Royer, Baptiste and Blais, Alexandre and Siddiqi, Irfan. (2018). Development of microwave single photon detectors in lumped element and traveling wave architectures. Bulletin of the American Physical Society, (Article publié).
  • Kannan, Bharath and Campbell, Daniel and Royer, Baptiste and Krantz, Philip and Kim, David and Yoder, Jonilyn and Blais, Alexandre and Orlando, Terry and Gustavsson, Simon and Oliver, William. (2018). Dissipation-driven Entangled State Preparation of Two Qubits Coupled to a Transmission Line. Bulletin of the American Physical Society, (Article publié).
  • St-Jean, Lucas and Iyer, Pavithran and Krishna, Anirudh and Puri, Shruti and Blais, Alexandre. (2018). Error Model for Cat States in Superconducting Kerr Nonlinear Resonators. Bulletin of the American Physical Society, (Article publié).
  • Magnard, Paul and Kurpiers, Philipp and Walter, Theo and Pechal, Marek and Royer, Baptiste and Besse, Jean-Claude and Gasparinetti, Simone and Blais, Alexandre and Wallraff, Andreas. (2018). Fast and Efficient All-Microwave Reset of a Transmon-Qutrit Coupled to a Large Bandwidth Resonator. Bulletin of the American Physical Society, (Article publié).
  • Di Paolo, Agustin and Groszkowski, Peter and Grimsmo, Arne and Gyenis, Andras and Houck, Andrew and Koch, Jens and Blais, Alexandre. (2018). Improving control and coherence of the 0-$\pi$ qubit. Bulletin of the American Physical Society, (Article accepté).
  • Lachapelle, Mathieu and Bourassa, Jerome and Blais, Alexandre. (2018). Longitudinal Coupling for Fast QND Measurement: Numerical Study. Bulletin of the American Physical Society, (Article publié).
  • Grimsmo, Arne and Blais, Alexandre and Petersson, Karl. (2018). Majorana qubit readout using parametric modulation of light-matter coupling. Bulletin of the American Physical Society, (Article publié).
  • Puri, Shruti and Royer, Baptiste and Girvin, Steven and Blais, Alexandre. (2018). Parity measurements using parametrically driven resonators: Part I. Bulletin of the American Physical Society, (Article publié).
  • Royer, Baptiste and Puri, Shruti and Girvin, Steven and Blais, Alexandre. (2018). Parity measurement using parametrically driven resonators-part 2. Bulletin of the American Physical Society, (Article publié).
  • Gyenis, Andras and Hazard, Thomas and Vrajitoarea, Andrei and Di Paolo, Agustin and Groszkowski, Peter and Blais, Alexandre and Koch, Jens and Houck, Andrew. (2018). Spectroscopic Measurements on Error Protected Superconducting Qubit Design Based on Josephson Junction Arrays. Bulletin of the American Physical Society, (Article publié).
  • Landig, Andreas and Koski, Jonne and Scarlino, Pasquale and Mendes, Udson and Stockklauser, Anna and Blais, Alexandre and Reichl, Christian and Wegscheider, Werner and Wallraff, Andreas and Ihn, Thomas and others. (2018). Strong coupling of a microwave photon to spin and charge qubits in GaAs quantum dots. Bulletin of the American Physical Society, (Article publié).
  • Beaudoin, Félix and Lachance-Quirion, Dany and Blais, Alexandre and Coish, William A and Pioro-Ladrière, Michel. (2017). Coupling a single electron spin to a microwave resonator, Part II: mitigating dephasing and relaxation. Bulletin of the American Physical Society, (Article publié).
  • Andersen, Christian Kraglund and Salathe, Yves and Heinsoo, Johannes and Krinner, Sebastian and Beckert, Andrian and Blais, Alexandre and Wallraff, Andreas. (2017). Crosstalk in superconducting quantum circuits. Bulletin of the American Physical Society, (Article publié).
  • Krantz, Philip and Gustavsson, Simon and Yan, Fei and Campbell, Daniel L and Kim, David and Yoder, Jonilyn L and Grimsmo, Arne L and Bourassa, Jerome and Blais, Alexandre and Kerman, Andrew J and others. (2017). Longitudinal qubit-resonator interaction in circuit QED. Bulletin of the American Physical Society, (Article publié).
  • Chapman, Benjamin and Rosenthal, Eric and Moores, Bradley and Kerckhoff, Joseph and Mates, JAB and Hilton, GC and Vale, LR and Ullom, JN and Lalum{\'\i}ere, Kevin and Blais, Alexandre and others. (2017). Performance of an on-chip superconducting circulator for quantum microwave systems. Bulletin of the American Physical Society, (Article publié).
  • Groszkowski, Peter and Di Paolo, Agustin and Grimsmo, Arne L and Blais, Alexandre and Koch, Jens. (2017). Properties and Gate Control of the 0-Pi Qubit, Part 1: Disorder and Coherence. Bulletin of the American Physical Society, (Article publié).
  • Di Paolo, Agustin and Grimsmo, Arne L and Groszkowski, Peter and Koch, Jens and Blais, Alexandre. (2017). Properties and Gate Control of the 0-Pi Qubit, Part 2: Gate Control. Bulletin of the American Physical Society, (Article publié).
  • Royer, Baptiste and Grimsmo, Arne L and Bourassa, Jerome and Didier, Nicolas and Blais, Alexandre. (2017). Quantum non-demolition and high-efficiency detection of traveling microwave photons-part 1. Bulletin of the American Physical Society, (Article publié).
  • Grimsmo, Arne L and Royer, Baptiste and Bourassa, Jérôme and Didier, Nicolas and Blais, Alexandre. (2017). Quantum non-demolition and high-efficiency detection of traveling microwave photons-part 2. APS March Meeting. (Article publié).
  • Chapman, Benjamin J and Rosenthal, Eric I and Moores, Brad A and Kerckhoff, Joseph and Lalumière, Kevin and Blais, Alexandre and Lehnert, KW. (2016). Design and initial tests of a superconducting circulator for quantum microwave systems. Bulletin of the American Physical Society, (Article publié).
  • Grimsmo, Arne and Clerk, Aashish and Blais, Alexandre. (2016). Engineering Non-Classical Light with Non-Linear Microwaveguides. Bulletin of the American Physical Society, (Article publié).
  • Bourassa Jérôme, Didier Nicolas and Blais Alexandre. (2016). Fast Quantum Nondemolition Readout by Parametric Modulation of Longitudinal Qubit-Oscillator Interaction. APS March Meeting. (Article accepté).
  • Boutin, Samuel and Andersen, Christian Kraglund and Venkatraman, Jayameenakshi and Blais, Alexandre. (2016). Fast resonator reset in circuit QED using open quantum system optimal control. Bulletin of the American Physical Society, (Article publié).
  • Beaudoin, Félix and Blais, Alexandre and Coish, William A. (2016). Hamiltonian simulation for improved state transfer and readout in cavity QED. Bulletin of the American Physical Society, (Article publié).
  • Royer, Baptiste and Grimsmo, Arne L and Blais, Alexandre. (2016). Long range correlations by local dissipation in lattice waveguide QED. Bulletin of the American Physical Society, (Article publié).
  • Eddins, A and Toyli, DM and Puri, S and Boutin, S and Hover, D and Bolkhovsky, V and Oliver, WD and Blais, A and Siddiqi, I. (2016). Resonance fluorescence from an artificial atom in squeezed vacuum, Part 1: Efficient fluorescence detection. Bulletin of the American Physical Society, (Article publié).
  • Toyli, DM and Eddins, A and Puri, S and Boutin, S and Hover, D and Bolkhovsky, V and Oliver, WD and Blais, A and Siddiqi, I. (2016). Resonance fluorescence from an artificial atom in squeezed vacuum, Part 2: Squeezing characterization through fluorescence. Bulletin of the American Physical Society, (Article publié).
  • Didier, Nicolas and Kamal, Archana and Boutin, Samuel and Oliver, William D and Blais, Alexandre and Clerk, Aashish A. (2015). High-fidelity dispersive readout using squeezed light. Part I. Bulletin of the American Physical Society, (Article publié).
  • Kamal, Archana and Didier, Nicolas and Boutin, Samuel and Gustavsson, Simon and Kerman, Andrew J and Oliver, William D and Orlando, Terry P and Blais, Alexandre and Clerk, Aashish A. (2015). High-fidelity dispersive readout using squeezed light. Part II. Bulletin of the American Physical Society, (Article publié).
  • Toyli, DM and Venkatramani, AV and Boutin, S and Eddins, A and Didier, N and Clerk, AA and Blais, A and Siddiqi, I. (2015). Imaging non-Gaussian output fields produced by Josephson parametric amplifiers: experiments. Bulletin of the American Physical Society, (Article publié).
  • Boutin, Samuel and Toyli, David M and Venkatramani, Aditya V and Eddins, Andrew and Didier, Nicolas and Clerk, Aashish A and Siddiqi, Irfan and Blais, Alexandre. (2015). Imaging non-Gaussian output fields produced by Josephson parametric amplifiers: theory. Bulletin of the American Physical Society, (Article publié).
  • Royer, Baptiste and Lalumi{\`e}re, Kevin and Grimsmo, Arne and Blais, Alexandre. (2015). Lattice waveguide QED: many-body interactions by dissipation. Bulletin of the American Physical Society, (Article publié).
  • Venkatramani, Aditya and Toyli, David and Boutin, Samuel and Eddins, Andrew and Blais, Alexandre and Siddiqi, Irfan. (2015). Optimized reconstruction methods for imaging squeezed microwave states. Bulletin of the American Physical Society, (Article publié).
  • Andersen, Christian Kraglund and Blais, Alexandre. (2015). Reaching ultrastrong coupling with Josephson junction arrays. Bulletin of the American Physical Society, (Article publié).
  • Kerckhoff, Joseph and Chapman, Benjamin J and Lalumi{\`e}re, Kevin and Blais, Alexandre and Lehnert, KW. (2015). Towards a lossless and integrable circulator for quantum superconducting microwave systems: Theory of operation. Bulletin of the American Physical Society, (Article publié).
  • Chapman, Benjamin J and Kerckhoff, Joseph and Lalumi{\`e}re, Kevin and Blais, Alexandre and Lehnert, KW. (2015). Towards a lossless and integrable circulator for quantum superconducting microwave systems: design and initial testing. Bulletin of the American Physical Society, (Article publié).
  • Lalumiere, Kevin and Kerckhoff, Joseph and Chapman, Benjamin J and Lehnert, KW and Blais, Alexandre. (2015). Towards a lossless and integrable circulator for quantum superconducting microwave systems: modelling and optimization. Bulletin of the American Physical Society, (Article publié).
  • Qassemi, Farzad and Thibault, Karl and Bertrand Reulet, Bertrand and Blais, Alexandre. (2014). Non-classical microwave radiation generated by electron transport in a tunnel junction. Bulletin of the American Physical Society, (Article publié).
  • Slichter, DH and Vijay, R and Weber, SJ and Mueller, C and Blais, A and Siddiqi, I. (2014). Quantum Zeno effect in a strongly measured superconducting qubit. Bulletin of the American Physical Society, (Article publié).
  • *Bourassa J, *Mueller C, Blais A. (2013). Detection of Majorana Fermions in circuit QED. Bulletin of the American Physical Society, (Article publié).
  • Strand JD, Ware ME, *Beaudoin F, Blais A, Ohki T, Johnson B, Plourde BLT. (2013). First-order sideband transitions with flux-driven asymmetric transmons. March Meeting of the American Physical Society. (Article publié).
  • Eichler C, Lang C, Fink J, Govenius J, Steffen L, Filipp S, Wallraff A, *Woolley M, Blais A. (2013). Qubit-Photon Entanglement and Hong-Ou-Mandel Interference with Propagating Microwaves. March Meeting of the American Physical Society. (Article publié).
  • Blais A. (2013). Scaling up with superconducting qubits. March Meeting of the American Physical Society. (Article publié).
  • Blais, Alexandre and Sanders, Barry C and Van Loo, Arjan F and Fedorov, Arkady and Wallraff, Andreas and others. (2013). Tuning from coherent interaction to super-and subradiance with artificial atoms in a 1D waveguide. Bulletin of the American Physical Society, (Article publié).
  • *Lalumière K, Blais A, Sanders BC, Van Loo AF, Fe A. (2013). Tuning from coherent interaction to super- and subradiance with artificial atoms in a 1D waveguide. Bulletin of the American Physical Society, (Article publié).
  • Wallraff A, Frey T, Leek PJ, Beck M, Blais A, Ihn T, Ensslin K. (2012). Circuit Quantum Electrodynamics with Semiconductor Quantum Dots. Bulletin of the American Physical Society, (Article publié).
  • van Loo AF, Fedorov A, *Lalumière K, Sanders BC, Blais A, Wallraff A. (2012). Cooperative Effects for Qubits in a Transmission Line: Experiment. March Meeting of the American Physical Society. (Article publié).
  • *Lalumière K, Blais A, Sanders BC, van Loo AF, Fedorov A, Wallraff A. (2012). Cooperative effects for Qubits in a Transmission Line: Theory. March Meeting of the American Physical Society. (Article publié).
  • *Woolley M, Lang C, Eichler C, Wallraff A, Blais A. (2012). Hong-Ou-Mandel Interference in Circuit QED Experiments. March Meeting of the American Physical Society. (Article publié).
  • *Beaudoin F, *da Silva MP, Johnson BR, Ohki TA, Dutton Z, Blais A. (2012). Quantum gates by qubit frequency modulation in circuit QED. March Meeting of the American Physical Society. (Article publié).
  • Ong FR, *Boissonneault M, Mallet F, Palacios-Laloy A, Dewes A, Doherty AC, Blais A, Bertet P, Vion D, Esteve D. (2011). Circuit QED with a Nonlinear Resonator: ac-Stark Shift and Dephasing. March Meeting of the American Physical Society. (Article publié).
  • Bozyigit D, Lang C, Steffen L, Fink JM, Eichler C, Baur M, Bianchetti R, Leek PJ, Filipp S, Wallraff A, *Da Silva PM, Blais A. (2011). Correlation measurements of individual microwave photons emitted from a symmetric cavity. Journal of Physics: Conference Series 264, 012024/1-8. (Article publié).
  • *Beaudoin F, Gambetta JM, Blais A. (2011). Dissipation in the ultra-strong coupling regime. March Meeting of the American Physical Society. (Article publié).
  • *Boissonneault M, Gambetta JM, Bourassa J, Blais A. (2011). Improved Superconducting Qubit Readout by Qubit-Induced Nonlinearities in the Straddling Regime. March Meeting of the American Physical Society. (Article publié).
  • *Bourassa J, Gambetta JM, Blais A. (2011). Multi-mode circuit quantum electrodynamics. March Meeting of the American Physical Society. (Article publié).
  • Gambetta J, Blais A, Bishop L, Schuster D. (2010). Dipole to quadrapole interactions in a transmon qubit: Purcell protection and tunable coupling. March Meeting of the American Physical Society. (Article publié).
  • *Bourassa J, Joo J, Blais A, Sanders B. (2010). Electromagnetically-induced transparency combined with lasing without inversion in superconducting qubits. March Meeting of the American Physical Society. (Article publié).
  • *Boissonneault M, Blais A, Ong F, Palacios-Laloy A, Mallet F, Bertet P, Vion D, Esteve D. (2010). Fourth order dispersive regime of circuit QED with a transmon and a CJBA. March Meeting of the American Physical Society. (Article publié).
  • Bozyigit D, *Silva M, Blais A, Wallraff A. (2010). Measurements of Microwave Single Photon Correlations: Experiment. March Meeting of the American Physical Society. (Article publié).
  • *da Silva M, Bozyigit D, Wallraff A, Blais A. (2010). Measurements of Microwave Single Photon Correlations: Theory. March Meeting of the American Physical Society. (Article publié).
  • *Lalumière K, Gambetta J, Blais A. (2010). Tunable joint measurements in the dispersive regime of cavity QED. March Meeting of the American Physical Society. (Article publié).
  • Bianchetti R, Filipp S, Blais A, Wallraff A. (2009). Dynamics of dispersive single qubit read-out in circuit QED. March Meeting of the American Physical Society. (Article publié).
  • Fink JM, Blais A, Wallraff A. (2009). Exploration of the Tavis-Cummings Model with Multiple Qubits in Circuit QED. March Meeting of the American Physical Society. (Article publié).
  • Gambetta J, Hutchison C, Blais A, Wilhelm F. (2009). Generating entanglement by measurement in circuit QED. March Meeting of the American Physical Society. (Article publié).
  • Leek PJ, Filipp S, Maurer P, Blais A, Wallraff A. (2009). Generation of entangled states in circuit QED using sideband transitions. March Meeting of the American Physical Society. (Article publié).
  • Baur M, Filipp S, Blais A, Wallraff A. (2009). Measurement of Autler-Townes and Mollow transitions in a strongly driven superconducting qubit. March Meeting of the American Physical Society. (Article publié).
  • DiCarlo L, Chow J, Majer J, Frunzio L, Gambetta J, Blais A, Girvin S, Schoelkopf R. (2009). Multi-Transmon circuit QED using local and fast flux biasing. March Meeting of the American Physical Society. (Article publié).
  • Hutchison CL, Gambetta JM, Blais A, Wilhelm FK. (2009). Quantum trajectory equation for multiple qubits in circuit QED: Generating entanglement by measurement. Canadian Journal of Physics, 225-231. (Article publié).
  • Fragner A, Goppl M, Blais A, Wallraff A. (2009). Resolving Vacuum Fluctuations in an Electrical Circuit by Measuring the Lamb Shift. March Meeting of the American Physical Society. (Article publié).
  • *Boissonneault M, Gambetta JM, Blais A. (2009). Second order dispersive regime of circuit QED with a transmon qubit. March Meeting of the American Physical Society. (Article publié).
  • Filipp S, Maurer P, Leek PJ, Blais A, Wallraff A. (2009). Two-qubit tomography with joint dispersive read-out in circuit QED. March Meeting of the American Physical Society. (Article publié).
  • Johnson B, Houck A, Gambetta J, Blais A, Girvin S, Devoret M, Schoelkopf R. (2009). Two Cavity Circuit QED. March Meeting of the American Physical Society. (Article publié).
  • *Bourassa J, Blais A. (2009). Ultra-strong coupling regime of cavity QED with flux qubits. March Meeting of the American Physical Society. (Article publié).
  • *Bourassa J, Blais A, Devoret M, Schoelkopf R. (2008). Circuit QED with phase-biased qubits. March Meeting of the American Physical Society. (Article publié).
  • *Boissonneault M, Gambetta J, Blais A. (2008). Measurement induced heat bath and decay rates in circuit QED. March Meeting of the American Physical Society. (Article publié).
  • Leek PJ, Fink JM, Blais A, Schoelkopf RJ, Wallraff A. (2008). Observation of Berry's Phase in a Superconducting Qubit. March Meeting of the American Physical Society. (Article publié).
  • Sanders B, Xue P, Blais A, *Lalumière K. (2008). Quantum walk on a circle in phase space via superconducting circuit quantum electrodynamics. March Meeting of the American Physical Society. (Article publié).
  • Houck A, Blais A, Girvin S, Schoelkopf R. (2008). Single shot readout in a circuit QED system. March Meeting of the American Physical Society. (Article publié).
  • Blais A. (2008). Superconducting qubits coupled to resonant cavities. March Meeting of the American Physical Society. (Article publié).
  • Fink JM, Blais A, Schoelkopf RJ, Wallraff A. (2008). Vacuum Rabi Mode Splitting at High Drive Powers and Elevated Temperatures. March Meeting of the American Physical Society. (Article publié).

Propriétés intellectuelles

Brevets

  • W. D. Oliver, S. Gustavsson, R. Winik, C. Leroux, A. Di Paolo and A. Blais. (2023). Cancellation of Unwanted Interactions in Superconducting Quantum Architecture. US 11,615,336 B2. États-Unis d'Amérique. (Accordé).
  • Alexandre Choquette, A. Di Paolo and A. Blais. (2023). Method of performing quantum computation. Provisory patent 05202424-64USPR. Canada. (En instance).
  • J. Bourassa, N. Didier and A. Blais. (2018). Periodical Modulation Of Longitudinal Coupling Strength For Quantum Non-Demolition Qubit Readout. 10,013,657. États-Unis d'Amérique. (Accordé).
  • N. Didier, J. Bourassa, B. Royer, A. Grimsmo and A. Blais. Controlled-phase quantum logic gate. 16/068,199. États-Unis d'Amérique. (En instance).
  • C. Lled ́o, R. Dassonneville, A. Moulinas, J. Cohen, R. Shillito, A. Bienfait, B. Huard, A. Blais. Method of operating a quantum system. Under review. Canada. (En instance).
  • Andrew Houck, Pranav Mundada, Andrei Vrajitoarea, Sara Sussman, Alexandre Blais, Alexandru Petrescu, Catherine Leroux, Agustin Di Paolo, Camille Le Calonnec. Opposite anharmonicity coupler for gates in quantum computers. WO 2022/197806. États-Unis d'Amérique. (Accordé).
  • S.Puri, C. K. Andersen, A. L. Grimsmo, and A. Blais. Quantum processor, and method of quantum processing. 15/988693. États-Unis d'Amérique. (En instance).
  • Catherine Leroux, A. Di Paolo and A. Blais. Quantum system and undesired interaction prevention mechanism therefore. US 2023/0142623. États-Unis d'Amérique. (Accordé).
  • Agustin Di Paolo, William D. Oliver, Catherine Leroux and Alexandre Blais. Tunable interactions for implementing two-qubit gates and suppressing spurious couplings via off-resonantly driven coupler modes in a superconducting chip. Under review. États-Unis d'Amérique. (En instance).

Autres contributions

Gestion d'évènements

  • Co-organizer. (2019) CIFAR Quantum cavities workshop. (Atelier).
  • Member of the international advisory committee. (2018-2019) “Rencontres de Moriond” NanoPhysics conference. (Conférence).
  • Member of the scientific committee. (2017-2018) 12th Principles and Applications of Control in Quantum Systems (PRACQSYS) workshop. (Atelier).
  • Co-organizer. (2018) CIFAR Quantum cavities workshop. (Atelier).
  • Member of the International Advisory Committee. (2017-2018) 9th International Workshop on Solid State Quantum Computing (IWSSQC). (Conférence).
  • Co-organizer. (2017) Canadian Summer School on Quantum Information. (Cours).
  • Co-organizer. (2015) CIFAR Quantum cavities workshop. (Conférence).
  • Co-organizer. (2013) CIFAR Quantum cavities workshop. (Atelier).
  • Co-organizer. (2011) 11th Canadian Summer School on Quantum Information. (Cours).
  • Co-organizer. (2010) CIFAR Quantum cavities workshop. (Atelier).
  • Member of the International Advisory Committee. (2008) The Fourth Asia Pacific Conference in Quantum Information Science. (Atelier).

Activités de collaboration internationale

  • Scientits. États-Unis d'Amérique. Un étudiant à la maîtrise de mon groupe a travaillé 2 mois avec Raytheon BBN.

Présentations

  • (2023). Circuit QED’s measurement problem. CIFAR Quantum Information Science Program Meeting. États-Unis d'Amérique
  • (2023). Cloaking a qubit in a cavity. Les Rencontres de Morionds. Italie
  • (2023). Cloaking a qubit in a cavity. International Research Laboratory – Laboratoire Frontières Quantiques. France
  • (2023). Dispersive qubit readout. Google Quantum AI. États-Unis d'Amérique
  • (2023). La seconde révolution quantique. BistroBrain. Canada
  • (2023). Quantique: Le début d’un temps nouveau. Coeur des sciences, UQAM, Montréal. Canada
  • (2023). The mysterious case of qubit readout in circuit QED. Yale Quantum Institute Colloquium. États-Unis d'Amérique
  • (2023). Vers le calcul quantique avec les circuits supraconducteurs. Physics Departement Colloquium, Université de Montréal. Canada
  • (2022). Dynamics of Transmon Ionization. Workshop on Superconducting Quantum Networks. Autriche
  • (2022). Dynamics of Transmon Ionization. INRIA, Paris. France
  • (2022). Dynamics of transmon ionization. CQuIC Seminar, University of New Mexico. États-Unis d'Amérique
  • (2022). Measuring the quantum state of superconducting qubits. Riken Center for Quantum Computing. Japon
  • (2022). Quantum Science and Technologies. STS Forum. Japon
  • (2022). Transmon Ionization and Cloaking. IBM Research. États-Unis d'Amérique
  • (2022). À quand l’ordinateur quantique pour l’IA?. TimeWorld, Montréal. Canada
  • (2021). A quantum metamaterial for broadband detection of single microwave photons. WQED20, 2nd workshop on waveguide QED. Italie
  • (2021). Circuit quantum electrodynamics. Quantum Computation and Sensing school. Italie
  • (2021). L’ordinateur quantique et la seconde révolution quantique. Grande Conférence de l’Université de Sherbrooke. Sherbrooke, Canada
  • (2021). Panel discussion: L’entrepreneuriat technologique de pointe, un incontournable pour l’avenir du Québec. Grand Rendez-vous de l’innovation québécoise. Montreal, Canada
  • (2021). Quantum-optimal-control-inspired ansatz for variational quantum algorithms. IARPA Logical Qubits program meeting. États-Unis d'Amérique
  • (2021). Quantum-optimal-control-inspired ansätze for variational quantum algorithms. Co-Design Center for Quantum Advantage (C2QA). États-Unis d'Amérique
  • (2021). Quantum Information Processing With Superconducting Circuits. Canadian Association of Physicist Congress. Canada
  • (2021). Superconducting quantum circuits. Fundamentals and advances in mesoscopic quantum physics Summer School. France
  • (2021). The global race towards quantum technologies: Canada’s contributions and imminent opportunities. The Partnership Group for Science and Engineering’s Bacon & Eggheads series. Canada
  • (2021). Towards Quantum Computation with Superconducting Circuits. UBC Physics Colloquium. Vancouver, Canada
  • (2021). Towards Quantum Computing With Superconducting Circuits. Physics Departement Colloquium, University of Cincinatti. États-Unis d'Amérique
  • (2021). Towards Quantum Computing With Superconducting Circuits. Jaszowiec 2021 – 49th International School & Conference on the Physics of Semiconductors. Warsaw, Pologne
  • (2020). A quantum metamaterial for broadband detection of single microwave photons. Quantum Information and Systems for Fundamental Physics. Aspen, États-Unis d'Amérique
  • (2020). A quantum metamaterial for broadband detection of single microwave photons. Qiskit Quantum Information Science Seminar Series. États-Unis d'Amérique
  • (2020). Assessing the Impact of Quantum Computing. Emerging Technologies Impact Assessment Workshop. Canada
  • (2020). Panel Discussion: Quantum Technology Initiatives Around the World. IOP Publishing Quantum 2020 conference. Bristol, Royaume-Uni
  • (2020). Quantum-optimal-control-inspired ansätze for variational quantum algorithms. iQuISE Seminar, Massachusetts Institute of Technology. Cambridge, États-Unis d'Amérique
  • (2020). Quantum Computing With Superconducting Circuits: Opportunities and Challenges. CASCON x EVOKE 2020. Toronto, Canada
  • (2020). Quantum computing with cats. Advanced Quantum Testbed Colloquium. Berkeley, États-Unis d'Amérique
  • (2020). Quantum computing with cats. Institute for Quantum Science and Technologies Colloquium. Calgary, Canada
  • (2020). Quantum computing with cats. CIFAR Quantum Information Science Workshop. Montreal, Canada
  • (2020). Quantum computing with stabilized Kerr-cat qubits. Quantum Devices: Simulation, Supremacy, and Optimization workshop. Berkeley, États-Unis d'Amérique
  • (2020). Quantum information processing with superconducting circuits. Quantum Computing Virtual Workshop. Ottawa, Canada
  • (2020). Superconducting qubits. Le lab quantique. Paris, France
  • (2019). Quantum metamaterial for nondestructive microwave photon counting. 20th anniversary of superconducting qubits. Tsukuba, Japon
  • (2019). Qubit readout in circuit QED. Quantum information machines summer school. Les Houches, France
  • (2019). So you want to do research?. Element AI. Montreal, Canada
  • (2018). Ask me anything. 'Le futur n'est pas de la fiction', Radio-Canada. Montréal, Canada
  • (2018). Itinerant microwave photon detector. WQED18. Mazara del Vallo, Italie
  • (2018). Itinerant microwave photon detector. Frontiers of Circuit QED and Optomechanics. Vienna, Autriche
  • (2018). Panel discussion on the future of technology. 'Le futur n'est pas de la fiction', Radio-Canada. Montréal, Canada
  • (2018). Quantum Engineering of Superconducting Qubits. European microwave week. Madrid, Espagne
  • (2018). Quantum computing with superconducting circuits. 9th International Conference on Spontaneous Coherence in Excitonic Systems (ICSCE9). Montreal, Canada
  • (2018). Quantum computing with superconducting circuits. Department of Physics and Astronomy Colloquium. Calgary, Canada
  • (2018). Qubit parity measurement in circuit QED. Quantum Fluids of Light and Matter. Les Houches, France
  • (2018). Qubit parity measurement in circuit QED. Aspen Winter Conference on Advances in Quantum Algorithms and Computation. Aspen, États-Unis d'Amérique
  • (2018). Superconducting quantum circuits. CIFAR Fundamental interactions workshop. Toronto, Canada
  • (2017). Calcul quantique adiabatique dans les circuits supraconducteurs. LIA-Laboratoire circuits et matériaux quantiques. Saint Lambert des Bois, France
  • (2017). Current trends in quantum computing. Element AI Seminar. Montreal, Canada
  • (2017). Quantum Computing with Superconducting Qubits. Solids4Fun summer school. Waidhofen, Autriche
  • (2017). Quantum Ising machines with parametrically modulated nonlinear oscillators. Institute for Quantum Optics and Quantum Information Seminar. Innsbruck, Autriche
  • (2017). Quantum Ising machines with parametrically modulated nonlinear oscillators. CIFAR Quantum Information Processing program workshop. Banff, Canada
  • (2017). Quantum Ising machines with parametrically modulated nonlinear oscillators. CEA Saclay Seminar. Gif-sur-Yvette, France
  • (2017). Quantum computers and networked computing. CIFAR Quantum Repeater workshop. Calgary, Canada
  • (2017). Quantum computing: the next computing platform. a16z summit. Las Vegas, États-Unis d'Amérique
  • (2017). Towards quantum annealing in circuit QED. QuTech Colloquium. Delft, Pays-Bas
  • (2016). Fast Qubit Readout from Longitudinal Coupling. Dynamics in Artificial Quantum Systems Workshop. Tokyo, Japon
  • (2016). Quantum Ising machines with parametrically modulated nonlinear oscillators. ETH Zurich Physics seminar. Zurich, Suisse
  • (2016). Quantum Ising machines with parametrically modulated nonlinear oscillators. Driven Quantum System Workshop. Bariloche, Argentine
  • (2016). Quantum optics with superconducting qubits. Photonics North. Québec City, Canada
  • (2016). Superconducting quantum circuits. McGill University Physics Colloquium. Montreal, Canada
  • (2016). Superconducting quantum circuits. RQMP workshop. Lennoxville, Canada
  • (2015). Information quantique. IBM Bromont, Seminar. Bromont, Canada
  • (2015). Longitudinal qubit readout. Quantronics 25th anniversary conferenc. Paris, France
  • (2015). Qubit readout in circuit QED. Resonator QED Conference. Munich, Allemagne
  • (2015). Superconducting quantum circuits. Institute for Quantum Science and Technology colloquium. Calgary, Canada
  • (2015). Superconducting quantum circuits. Bishop’s University seminar. Sherbrooke, Canada
  • (2015). Superconducting qubits. QIP 2015. Sydney, Australie
  • (2014). Informatique quantique – ou comment tirer profit de l’étrangeté quantique. Séminaire Cégep André-Garneau. Québec, Canada
  • (2014). Perfect squeezing by damping modulation in circuit quantum electrodynamics. th Advanced Research Workshop NanoPeter 2014. Saint Pertersburg, Russie, Fédération de
  • (2014). Waveguide QED with artificial atoms. Seminar, JILA, University of Colorado. Boulder, États-Unis d'Amérique
  • (2013). Fluctuations du vide dans un circuit électrique. Colloquium, Université de Montréal. Montréal, Canada
  • (2013). Quantum information processing with superconducting circuits. 13th Canadian Summer School on Quantum Information, University of Waterloo. Waterloo, Canada
  • (2013). Quantum information processing with superconducting circuits. Aux frontières de la physique mésoscopique. Orford, Canada
  • (2013). Scaling up with superconducting qubits. (Abstract #T10.05) APS’s March Meeting. Baltimore, États-Unis d'Amérique
  • (2013). Un saut quantique pour les technologies de l’information. Annual banquet of the ‘Ordre des ingénieurs du Québec’. Sherbrooke, Canada
  • (2013). Waveguide QED with an ensemble of qubits. From Quantum Matter to Quantum Information,University of British Columbia. Vancouver, Canada
  • (2013). Waveguide QED with an ensemble of qubits. STINT Quantum Optics with Microwave Photons. North Stradbroke Island, QLD, Australie
  • (2013). Waveguide QED with an ensemble of qubits. iQIT workshop. Corfu, Grèce
  • (2012). Circuit QED with a nonlinear resonator. Department of Physics and Astronomy, Northwestern University. Evanston, États-Unis d'Amérique
  • (2012). Quantum information processing and quantum optics with superconducting circuits. Departement of physics colloquium, University of Victoria. Victoria, Canada
  • (2012). Quantum information processing and quantum optics with superconducting circuits. Departement of physics colloquium, Simon Fraser University. Burnaby, Canada
  • (2012). Quantum information processing and quantum optics with superconducting circuits. Departement of physics colloquium , University of British Columbia. Vancouver, Canada
  • (2012). Quantum information processing with superconducting circuits. 12th Canadian Summer School on Quantum Information, University of Waterloo. Waterloo, Canada
  • (2012). Qubit frequency modulations in circuit QED: from gates to noise probe. Institute for quantum computing, University of Waterloo. Waterloo, Canada
  • (2012). Towards a new information revolution. CIFAR funding event. Montreal, Canada
  • (2012). Waveguide QED: Probing collective effects with artificial atoms in free space. Department of Physics , Syracyse University. Syracuse, États-Unis d'Amérique
  • (2011). Circuit QED with nonlinear resonators. Quantum simulations. Benasque, Espagne
  • (2011). Microwave photon antibunching using linear detectors. International Symposium on Nanoscale Transport and Technology (ISNTT2011). Atsugi, Japon
  • (2011). Quantum information processing and quantum optics with superconducting circuits. Quantum information processing and communication school. Diavolezza, Suisse
  • (2011). Quantum information processing and quantum optics with superconducting circuits. Herzberg medal lecture, Canadian association of physicist. St-John’s, Canada
  • (2011). Quantum information processing and quantum optics with superconducting circuits. Departement of physics colloquium, University of Toronto. Toronto, Canada
  • (2010). Microwave photon antibunching using linear detectors. CIFAR Nanoelectronics program meeting. Banff, Canada
  • (2010). Nonlinear dispersive model of circuit QED. FoQuS SFB-Meeting. Innsbruck, Autriche
  • (2010). Optique et calcul quantique dans un circuit supraconducteur. Université du Québec à Trois-Rivière. Trois-Rivières, Canada
  • (2010). Quantum optics with superconducting circuits. McMaster University. Hamilton, Canada
  • (2010). Strong coupling of a qubit to a nonlinear resonator. Quantum Information Processing with Spins and Superconductor. Waterloo, Canada
  • (2009). Demonstration of Two-Qubit Algorithms with a Superconducting Quantum Processor. INTRIQ workshop. Val-David, Canada
  • (2009). Demonstration of Two-Qubit Algorithms with a Superconducting Quantum Processor. CAP annual meeting. Moncton, Canada
  • (2009). Demonstration of Two-Qubit Algorithms with a Superconducting Quantum Processor. CIFAR Quantum information processing program meeting. Alton-Caledon, Canada
  • (2009). Demonstration of Two-Qubit Algorithms with a Superconducting Quantum Processor. CIFAR Nanoelectronics program meeting. Whistler, Canada
  • (2009). Optique quantique et information quantique avec circuits supraconducteurs. RQCHP 10th anniversary meeting. Montréal, Canada
  • (2008). Circuit QED. Quantum Optics: From Photons and Atoms to Molecules and Solid State Systems. Obergurgl, Autriche
  • (2008). Optique quantique et calcul quantique avec circuits supraconducteurs. Université de Montréal. Montréal, Canada
  • (2008). QND measurements and Kerr nonlinearity in circuit QED. ETH Zurich. Zurich, Suisse
  • (2008). Quantum Information Processing and quantum optics with Superconducting Circuits. Eight Canadian Quantum Information Summer School. Montréal, Canada
  • (2008). Quantum optics with microwave photons and superconducting qubits. IQC, University of Waterloo. Waterloo, Canada
  • (2008). Quantum optics with superconducting circuits. Quantum Information Science Mini-School. Taipei, Taïwan
  • (2008). Superconducting qubits coupled to resonant cavities. (Abstract #D5.01) APS’s March Meeting. New Orleans, États-Unis d'Amérique
  • (2007). Coupling superconducting qubits via a cavity bus. Dartmouth college. Hannover, États-Unis d'Amérique