2022

Ataei, A., Gourgout, A., Grissonnanche, G. et al. Electrons with Planckian scattering obey standard orbital motion in a magnetic field. Nat. Phys. (2022). https://doi.org/10.1038/s41567-022-01763-0

 

2021

Stéphane Virally, Patrick Cusson, Denis V. Seletski. Enhanced Electro-Optic Sampling with Quantum Probes. arXiv:2106.04402v1 [quant-ph] (2021)

Shillito, R., Gross, J. A., Di Paolo, A., Genois, É. & Blais, A. Fast and differentiable simulation of driven quantum systems. Phys. Rev. Research 3, 033266 (2021).

S. Krinner, N. Lacroix, A. Remm, A. D. Paolo, É. Genois, C. Leroux, C. Hellings, S. Lazar, F. Swiadek, J. Herrmann, G. J. Norris, C. K. Andersen, M. Müller, A. Blais, C. Eichler, and A. Wallraff. Realizing repeated quantum error correction in a distance-three surface code (2021), arXiv:2112.03708. Accepted in Nature.

Rebollo, I. G., Rodrigues-Machado, F. C., Wright, W., Melin, G. J. & Champagne, A. R. Thin-suspended 2D materials: facile, versatile, and deterministic transfer assembly. 2D Materials 8, 035028 (2021).

Mukherjee, Samik; Wajs, Marcin; de la Mata, María; Givan, Uri; Senz, Stephan; Arbiol, Jordi; Francoeur, Sébastien; Moutanabbir, Oussama. Disentangling phonon channels in nanoscale heat transport. Phys. Rev. B 104, 075429 (2021).

Czischek, Stefanie; Yon, Victor; Genest, Marc-Antoine; Roux, Marc-Antoine; Rochette, Sophie; Lemyre, Julien; Moras, Mathieu; Pioro-Ladriere, Michel; Drouin, Dominique; Beilliard, Yann; Melko, Roger. Miniaturizing neural networks for charge state autotuning in quantum dots. Machine Learning: Science and Technology 3, 015001 (2021).

 

2020

Lapointe-Major, M. et al. Algorithm for automated tuning of a quantum dot into the single-electron regime. Phys. Rev. B 102, 085301 (2020).

Philippe Guay, Olivier-Michel Tardif, & Lauris Talbot. Bringing together graduate students and companies to solve industry-related problems in optics and photonics. in vol. 11480 (2020).

Olivier-Michel TardifArthur Perret, & Claudine Nì. Allen. Towards optimal light-matter coupling of colloidal quantum dots in optical fibers. in vol. 11465 (2020).

É. Genois, J. A. Gross, A. Di Paolo, N. Stevenson, G. Koolstra, A. Hashim, I. Siddiqi, and A. Blais. Quantum-Tailored Machine-Learning Characterization of a Superconducting Qubit. PRX Quantum 2, 040355 (2021).

C. A. Whittaker, A. Perret, C. Fortier, O.-M. Tardif, S. Lamarre, S. Morency, L. Beaulieu, D. Larivière, Y. Messaddeq, and C. Nì. Allen. Colloidal Quantum Dot-doped Optical Fibers Drawn from Polymer Nanocompositeshttps://arxiv.org/pdf/2006.04015.pdf

Ataei, A. Gourgout, G. Grissonnanche, L. Chen, J. Baglo, M-E. Boulanger, F. Laliberté, S. Badoux, N. Doiron-Leyraud, V. Oliviero, S. Benhabib, D. Vignolles, J.-S. Zhou, S. Ono, H. Takagi, C. Proust, L. Taillefer. Electrons with Planckian scattering obey standard orbital motion in a magnetic field, arXiv:2203.05035v1

Aghdaei A, Pandiyan R, Ilahi B, Chicoine M, El Gowini M, Schiettekatte F, et al. Engineering visible light emitting point defects in Zr-implanted polycrystalline AlN films. Journal of Applied Physics 2020;128(24).