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Matthew Ware
Matthew Ware
在 ibm.com 的电子邮件经过验证 - 首页
标题
引用次数
引用次数
年份
Process verification of two-qubit quantum gates by randomized benchmarking
AD Córcoles, JM Gambetta, JM Chow, JA Smolin, M Ware, J Strand, ...
Physical Review A—Atomic, Molecular, and Optical Physics 87 (3), 030301, 2013
2212013
First-order sideband transitions with flux-driven asymmetric transmon qubits
JD Strand, M Ware, F Beaudoin, TA Ohki, BR Johnson, A Blais, ...
Physical Review B—Condensed Matter and Materials Physics 87 (22), 220505, 2013
1912013
Experimental Pauli-frame randomization on a superconducting qubit
M Ware, G Ribeill, D Riste, CA Ryan, B Johnson, MP Da Silva
Physical Review A 103 (4), 042604, 2021
522021
Bootstrapping quantum process tomography via a perturbative ansatz
LCG Govia, GJ Ribeill, D Ristè, M Ware, H Krovi
Nature communications 11 (1), 1084, 2020
442020
Deep-neural-network discrimination of multiplexed superconducting-qubit states
B Lienhard, A Vepsäläinen, LCG Govia, CR Hoffer, JY Qiu, D Ristè, ...
Physical Review Applied 17 (1), 014024, 2022
372022
Characterizing midcircuit measurements on a superconducting qubit using gate set tomography
K Rudinger, GJ Ribeill, LCG Govia, M Ware, E Nielsen, K Young, TA Ohki, ...
Physical Review Applied 17 (1), 014014, 2022
272022
Miniaturizing transmon qubits using van der Waals materials
A Antony, MV Gustafsson, GJ Ribeill, M Ware, A Rajendran, LCG Govia, ...
Nano letters 21 (23), 10122-10126, 2021
232021
Transient dynamics of a superconducting nonlinear oscillator
P Bhupathi, P Groszkowski, MP DeFeo, M Ware, FK Wilhelm, BLT Plourde
Physical Review Applied 5 (2), 024002, 2016
152016
Cross-resonance interactions between superconducting qubits with variable detuning
M Ware, BR Johnson, JM Gambetta, TA Ohki, JM Chow, BLT Plourde
arXiv preprint arXiv:1905.11480, 2019
82019
Flux-tunable superconducting transmons for quantum information processing
ME Ware
Syracuse University, 2015
72015
Copper waveguide cavities with reduced surface loss for coupling to superconducting qubits
DF Bogorin, DT McClure, M Ware, BLT Plourde
IEEE transactions on applied superconductivity 24 (4), 1-7, 2014
52014
Reducing surface loss in 3D microwave copper cavities for superconducting transmon qubits
DF Bogorin, M Ware, DT McClure, S Sorokanich, BLT Plourde
2013 IEEE 14th international superconductive electronics conference (ISEC), 1-3, 2013
52013
Van der waals capacitor and qubit using same
ME Ware, AT Rajendran, GJA Ribeill, T Ohki, JC Hone, M Gustafsson, ...
US Patent App. 17/686,832, 2023
2023
Evaluating dielectric loss in hexagonal boron nitride for high-performace quantum devices
A Rajendran, A Antony, M Gustafsson, G Ribeill, M Ware, L Govia, T Ohki, ...
APS March Meeting Abstracts 2022, B72. 007, 2022
2022
Characterizing mid-circuit measurements with a new form of gate set tomography Part 1: Theory.
KM Rudinger, TJ Proctor, E Nielsen, G Ribeill, M Ware, L Govia, T Ohki
Sandia National Lab.(SNL-NM), Albuquerque, NM (United States), 2021
2021
Two-qubit Pauli-frame randomization in a superconducting system
M Ware, G Ribeill, L Govia
Bulletin of the American Physical Society 65, 2020
2020
Neural Network assisted Superconducting Qubit Readout
B Lienhard, A Vepsalainen, L Govia, Y Qiu, D Ristè, M Ware, D Kim, ...
Bulletin of the American Physical Society 65, 2020
2020
Random Circuit Metrics for Performance Assessment and Model Testing
L Govia, G Ribeill, M Ware, H Krovi
Bulletin of the American Physical Society 65, 2020
2020
Characterizing mid-circuit measurements with a new form of gate set tomography part 2: Experiment.
G Ribeill, M Ware, L Govia, K Rudinger, T Proctor, T Ohki
Sandia National Lab.(SNL-NM), Albuquerque, NM (United States), 2020
2020
Calibrating two-qubit gates via robust phase estimation.
KM Rudinger, G Ribeill, L Govia, M Ware, S Kimmel
Sandia National Lab.(SNL-NM), Albuquerque, NM (United States), 2019
2019
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