Broadband parametric amplification with impedance engineering: Beyond the gain-bandwidth product T Roy, S Kundu, M Chand, AM Vadiraj, A Ranadive, N Nehra, ... Applied Physics Letters 107 (26), 2015 | 194 | 2015 |
Quantum-enhanced noise radar CW Chang, AM Vadiraj, J Bourassa, B Balaji, CM Wilson Applied Physics Letters 114 (11), 2019 | 190 | 2019 |
Receiver operating characteristics for a prototype quantum two-mode squeezing radar D Luong, CWS Chang, AM Vadiraj, A Damini, CM Wilson, B Balaji IEEE Transactions on Aerospace and Electronic Systems 56 (3), 2041-2060, 2019 | 148 | 2019 |
Observation of three-photon spontaneous parametric down-conversion in a superconducting parametric cavity CWS Chang, C Sabín, P Forn-Díaz, F Quijandría, AM Vadiraj, ... Physical Review X 10 (1), 011011, 2020 | 143 | 2020 |
Engineering the level structure of a giant artificial atom in waveguide quantum electrodynamics AM Vadiraj, A Ask, TG McConkey, I Nsanzineza, CWS Chang, AF Kockum, ... Physical Review A 103 (2), 023710, 2021 | 113 | 2021 |
Generating multimode entangled microwaves with a superconducting parametric cavity CW Sandbo Chang, M Simoen, J Aumentado, C Sabín, P Forn-Díaz, ... Physical Review Applied 10 (4), 044019, 2018 | 80 | 2018 |
On-demand microwave generator of shaped single photons P Forn-Diaz, CW Warren, CWS Chang, AM Vadiraj, CM Wilson Physical Review Applied 8 (5), 054015, 2017 | 71 | 2017 |
Quantum simulation of the bosonic creutz ladder with a parametric cavity JSC Hung, JH Busnaina, CWS Chang, AM Vadiraj, I Nsanzineza, ... Physical Review Letters 127 (10), 100503, 2021 | 42 | 2021 |
Path toward manufacturable superconducting qubits with relaxation times exceeding 0.1 ms J Verjauw, R Acharya, J Van Damme, T Ivanov, DP Lozano, ... npj Quantum Information 8 (1), 93, 2022 | 30 | 2022 |
A quantum-enhanced radar prototype D Luong, A Damini, B Balaji, CWS Chang, AM Vadiraj, C Wilson 2019 IEEE Radar Conference (RadarConf), 1-6, 2019 | 25 | 2019 |
MEMS accelerometers and their bio-applications M Trifunovic, AM Vadiraj, WD Van Driel 2012 13th International Thermal, Mechanical and Multi-Physics Simulation and …, 2012 | 24 | 2012 |
Multiplexed superconducting qubit control at millikelvin temperatures with a low-power cryo-CMOS multiplexer R Acharya, S Brebels, A Grill, J Verjauw, T Ivanov, DP Lozano, D Wan, ... Nature Electronics 6 (11), 900-909, 2023 | 23 | 2023 |
Manufacturing high-Q superconducting {\alpha}-tantalum resonators on silicon wafers DP Lozano, M Mongillo, X Piao, S Couet, D Wan, Y Canvel, AM Vadiraj, ... arXiv preprint arXiv:2211.16437, 2022 | 10 | 2022 |
Smart packaging of electronics and integrated MEMS devices using LTCC S Kumar, AM Vadiraj arXiv preprint arXiv:1605.01789, 2016 | 10 | 2016 |
Carbon nanotube-based lossy transmission line filter for superconducting qubit measurements MV Moghaddam, CW Chang, I Nsanzineza, AM Vadiraj, CM Wilson Applied Physics Letters 115 (21), 2019 | 8 | 2019 |
Argon-Milling-Induced Decoherence Mechanisms in Superconducting Quantum Circuits J Van Damme, T Ivanov, P Favia, T Conard, J Verjauw, R Acharya, ... Physical Review Applied 20 (1), 014034, 2023 | 6 | 2023 |
Overcoming I/O bottleneck in superconducting quantum computing: multiplexed qubit control with ultra-low-power, base-temperature cryo-CMOS multiplexer R Acharya, S Brebels, A Grill, J Verjauw, T Ivanov, DP Lozano, D Wan, ... arXiv preprint arXiv:2209.13060, 2022 | 5 | 2022 |
Low-loss α-tantalum coplanar waveguide resonators on silicon wafers: fabrication, characterization and surface modification DP Lozano, M Mongillo, X Piao, S Couet, D Wan, Y Canvel, AM Vadiraj, ... Materials for Quantum Technology 4 (2), 025801, 2024 | 4 | 2024 |
Practical advantage in microwave quantum illumination N Messaoudi, CWS Chang, AM Vadiraj, CM Wilson, J Bourassa, B Balaji 2020 IEEE Radar Conference (RadarConf20), 1-5, 2020 | 3 | 2020 |
Shaped, on-demand microwave single-photon generator P Forn-Dıaz, CW Warren, CWS Chang, AM Vadiraj, CM Wilson | 2 | |