Joseph Bardin
Joseph Bardin
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Cited by
Cited by
Quantum supremacy using a programmable superconducting processor
F Arute, K Arya, R Babbush, D Bacon, JC Bardin, R Barends, R Biswas, ...
Nature 574 (7779), 505-510, 2019
Hartree-Fock on a superconducting qubit quantum computer
Google AI Quantum and Collaborators*†, F Arute, K Arya, R Babbush, ...
Science 369 (6507), 1084-1089, 2020
Quantum approximate optimization of non-planar graph problems on a planar superconducting processor
MP Harrigan, KJ Sung, M Neeley, KJ Satzinger, F Arute, K Arya, J Atalaya, ...
Nature Physics 17 (3), 332-336, 2021
Exponential suppression of bit or phase flip errors with repetitive error correction
Z Chen, KJ Satzinger, J Atalaya, AN Korotkov, A Dunsworth, D Sank, ...
arXiv preprint arXiv:2102.06132, 2021
Realizing topologically ordered states on a quantum processor
KJ Satzinger, YJ Liu, A Smith, C Knapp, M Newman, C Jones, Z Chen, ...
Science 374 (6572), 1237-1241, 2021
Demonstrating a continuous set of two-qubit gates for near-term quantum algorithms
B Foxen, C Neill, A Dunsworth, P Roushan, B Chiaro, A Megrant, J Kelly, ...
Physical Review Letters 125 (12), 120504, 2020
Design of cryogenic SiGe low-noise amplifiers
S Weinreb, JC Bardin, H Mani
IEEE transactions on microwave theory and techniques 55 (11), 2306-2312, 2007
Time-crystalline eigenstate order on a quantum processor
X Mi, M Ippoliti, C Quintana, A Greene, Z Chen, J Gross, F Arute, K Arya, ...
Nature 601 (7894), 531-536, 2022
Information scrambling in quantum circuits
X Mi, P Roushan, C Quintana, S Mandra, J Marshall, C Neill, F Arute, ...
Science 374 (6574), 1479-1483, 2021
Nanoscale memristive radiofrequency switches
S Pi, M Ghadiri-Sadrabadi, JC Bardin, Q Xia
Nature communications 6 (1), 7519, 2015
Observation of separated dynamics of charge and spin in the fermi-hubbard model
F Arute, K Arya, R Babbush, D Bacon, JC Bardin, R Barends, A Bengtsson, ...
arXiv preprint arXiv:2010.07965, 2020
Design and characterization of a 28-nm bulk-CMOS cryogenic quantum controller dissipating less than 2 mW at 3 K
JC Bardin, E Jeffrey, E Lucero, T Huang, S Das, DT Sank, O Naaman, ...
IEEE Journal of Solid-State Circuits 54 (11), 3043-3060, 2019
Matched wideband low-noise amplifiers for radio astronomy
S Weinreb, J Bardin, H Mani, G Jones
Review of Scientific Instruments 80 (4), 044702, 2009
Silicon-germanium heterojunction bipolar transistors for extremely low-noise applications
JC Bardin
California Institute of Technology, 2009
29.1 A 28nm bulk-CMOS 4-to-8GHz¡ 2mW cryogenic pulse modulator for scalable quantum computing
JC Bardin, E Jeffrey, E Lucero, T Huang, O Naaman, R Barends, T White, ...
2019 IEEE International Solid-State Circuits Conference-(ISSCC), 456-458, 2019
Resolving catastrophic error bursts from cosmic rays in large arrays of superconducting qubits
M McEwen, L Faoro, K Arya, A Dunsworth, T Huang, S Kim, B Burkett, ...
Nature Physics 18 (1), 107-111, 2022
A 0.1–5 GHz Cryogenic SiGe MMIC LNA
JC Bardin, S Weinreb
IEEE Microwave and Wireless Components Letters 19 (6), 407-409, 2009
Ultra-low-power cryogenic SiGe low-noise amplifiers: Theory and demonstration
S Montazeri, WT Wong, AH Coskun, JC Bardin
IEEE Transactions on Microwave Theory and Techniques 64 (1), 178-187, 2015
Accurately computing the electronic properties of a quantum ring
C Neill, T McCourt, X Mi, Z Jiang, MY Niu, W Mruczkiewicz, I Aleiner, ...
Nature 594 (7864), 508-512, 2021
Suppressing quantum errors by scaling a surface code logical qubit
Nature 614 (7949), 676-681, 2023
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