Alexis Morvan
Alexis Morvan
Google Quantum AI
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Cited by
Quantum information scrambling on a superconducting qutrit processor
MS Blok, VV Ramasesh, T Schuster, K O’Brien, JM Kreikebaum, D Dahlen, ...
Physical Review X 11 (2), 021010, 2021
Suppressing quantum errors by scaling a surface code logical qubit
Nature 614 (7949), 676-681, 2023
Observation of the unconventional photon blockade in the microwave domain
C Vaneph, A Morvan, G Aiello, M Féchant, M Aprili, J Gabelli, J Estève
Physical review letters 121 (4), 043602, 2018
Improving wafer-scale Josephson junction resistance variation in superconducting quantum coherent circuits
JM Kreikebaum, KP O’Brien, A Morvan, I Siddiqi
Superconductor Science and Technology 33 (6), 06LT02, 2020
Randomized Compiling for Scalable Quantum Computing on a Noisy Superconducting Quantum Processor
A Hashim, RK Naik, A Morvan, JL Ville, B Mitchell, JM Kreikebaum, ...
Physical Review X 11, 041039, 2021
Qutrit randomized benchmarking
A Morvan, VV Ramasesh, MS Blok, JM Kreikebaum, K O’Brien, L Chen, ...
Physical review letters 126 (21), 210504, 2021
High-fidelity three-qubit iToffoli gate for fixed-frequency superconducting qubits
Y Kim, A Morvan, LB Nguyen, RK Naik, C Jünger, L Chen, ...
Nature Physics 18 (7), 783-788, 2022
Hardware-efficient microwave-activated tunable coupling between superconducting qubits
BK Mitchell, RK Naik, A Morvan, A Hashim, JM Kreikebaum, B Marinelli, ...
Physical review letters 127 (20), 200502, 2021
High-fidelity qutrit entangling gates for superconducting circuits
N Goss, A Morvan, B Marinelli, BK Mitchell, LB Nguyen, RK Naik, L Chen, ...
Nature communications 13 (1), 7481, 2022
Noise-resilient edge modes on a chain of superconducting qubits
X Mi, M Sonner, MY Niu, KW Lee, B Foxen, R Acharya, I Aleiner, ...
Science 378 (6621), 785-790, 2022
Blueprint for a high-performance fluxonium quantum processor
LB Nguyen, G Koolstra, Y Kim, A Morvan, T Chistolini, S Singh, ...
PRX Quantum 3 (3), 037001, 2022
QubiC: An open-source FPGA-based control and measurement system for superconducting quantum information processors
Y Xu, G Huang, J Balewski, R Naik, A Morvan, B Mitchell, K Nowrouzi, ...
IEEE Transactions on Quantum Engineering 2, 1-11, 2021
Phase transition in random circuit sampling
A Morvan, B Villalonga, X Mi, S Mandra, A Bengtsson, PV Klimov, Z Chen, ...
arXiv preprint arXiv:2304.11119, 2023
High kinetic inductance microwave resonators made by He-Beam assisted deposition of tungsten nanowires
J Basset, D Watfa, G Aiello, M Féchant, A Morvan, J Estève, J Gabelli, ...
Applied Physics Letters 114 (10), 2019
Formation of robust bound states of interacting microwave photons
A Morvan, TI Andersen, X Mi, C Neill, A Petukhov, K Kechedzhi, ...
Nature 612 (7939), 240-245, 2022
Leveraging randomized compiling for the quantum imaginary-time-evolution algorithm
JL Ville, A Morvan, A Hashim, RK Naik, M Lu, B Mitchell, JM Kreikebaum, ...
Physical Review Research 4 (3), 033140, 2022
Optimizing frequency allocation for fixed-frequency superconducting quantum processors
A Morvan, L Chen, JM Larson, DI Santiago, I Siddiqi
Physical Review Research 4 (2), 023079, 2022
Quantum information phases in space-time: measurement-induced entanglement and teleportation on a noisy quantum processor
JC Hoke, M Ippoliti, D Abanin, R Acharya, M Ansmann, F Arute, K Arya, ...
arXiv preprint arXiv:2303.04792, 2023
Purification-based quantum error mitigation of pair-correlated electron simulations
TE O'Brien, G Anselmetti, F Gkritsis, VE Elfving, S Polla, WJ Huggins, ...
arXiv preprint arXiv:2210.10799, 2022
Efficiently improving the performance of noisy quantum computers
S Ferracin, A Hashim, JL Ville, R Naik, A Carignan-Dugas, H Qassim, ...
arXiv preprint arXiv:2201.10672, 2022
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