Artikel mit Open-Access-Mandaten - Brandur ÞorgrímssonWeitere Informationen
Verfügbar: 16
Extending the coherence of a quantum dot hybrid qubit
B Thorgrimsson, D Kim, YC Yang, LW Smith, CB Simmons, DR Ward, ...
npj Quantum Information 3 (1), 32, 2017
Mandate: US National Science Foundation, US Department of Energy, US Department of …
Exploiting a Single‐Crystal Environment to Minimize the Charge Noise on Qubits in Silicon
L Kranz, SK Gorman, B Thorgrimsson, Y He, D Keith, JG Keizer, ...
Advanced Materials 32 (40), 2003361, 2020
Mandate: US Department of Defense, Australian Research Council
The critical role of substrate disorder in valley splitting in Si quantum wells
SF Neyens, RH Foote, B Thorgrimsson, TJ Knapp, T McJunkin, ...
Applied Physics Letters 112 (24), 2018
Mandate: US National Science Foundation, US Department of Energy, US Department of …
Coherent control and spectroscopy of a semiconductor quantum dot Wigner molecule
J Corrigan, JP Dodson, HE Ercan, JC Abadillo-Uriel, B Thorgrimsson, ...
Physical Review Letters 127 (12), 127701, 2021
Mandate: US National Science Foundation, US Department of Defense
Valley splittings in Si/SiGe quantum dots with a germanium spike in the silicon well
T McJunkin, ER MacQuarrie, L Tom, SF Neyens, JP Dodson, ...
Physical Review B 104 (8), 085406, 2021
Mandate: US National Science Foundation, US Department of Energy, US Department of …
Measurements of capacitive coupling within a quadruple-quantum-dot array
SF Neyens, ER MacQuarrie, JP Dodson, J Corrigan, N Holman, ...
Physical Review Applied 12 (6), 064049, 2019
Mandate: US National Science Foundation, US Department of Defense
Fabrication process and failure analysis for robust quantum dots in silicon
JP Dodson, N Holman, B Thorgrimsson, SF Neyens, ER MacQuarrie, ...
Nanotechnology 31 (50), 505001, 2020
Mandate: US National Science Foundation, US Department of Defense
Signatures of atomic-scale structure in the energy dispersion and coherence of a Si quantum-dot qubit
JC Abadillo-Uriel, B Thorgrimsson, D Kim, LW Smith, CB Simmons, ...
Physical Review B 98 (16), 165438, 2018
Mandate: US National Science Foundation, US Department of Energy, US Department of …
Progress toward a capacitively mediated CNOT between two charge qubits in Si/SiGe
ER MacQuarrie, SF Neyens, JP Dodson, J Corrigan, B Thorgrimsson, ...
npj Quantum Information 6 (1), 81, 2020
Mandate: US National Science Foundation, US Department of Defense
Transport through an impurity tunnel coupled to a Si/SiGe quantum dot
RH Foote, DR Ward, JR Prance, JK Gamble, E Nielsen, B Thorgrimsson, ...
Applied Physics Letters 107 (10), 2015
Mandate: US Department of Energy
Characterization of a gate-defined double quantum dot in a Si/SiGe nanomembrane
TJ Knapp, RT Mohr, YS Li, B Thorgrimsson, RH Foote, X Wu, DR Ward, ...
Nanotechnology 27 (15), 154002, 2016
Mandate: US National Science Foundation, US Department of Energy
The Use of Exchange Coupled Atom Qubits as Atomic‐Scale Magnetic Field Sensors
L Kranz, SK Gorman, B Thorgrimsson, S Monir, Y He, D Keith, K Charde, ...
Advanced Materials 35 (6), 2201625, 2023
Mandate: US Department of Defense, US National Institutes of Health, Australian …
Ramped measurement technique for robust high-fidelity spin qubit readout
D Keith, Y Chung, L Kranz, B Thorgrimsson, SK Gorman, MY Simmons
Science Advances 8 (36), eabq0455, 2022
Mandate: Australian Research Council
The effect of external electric fields on silicon with superconducting gallium nano-precipitates
B Thorgrimsson, T McJunkin, ER MacQuarrie, SN Coppersmith, ...
Journal of Applied Physics 127 (21), 2020
Mandate: US National Science Foundation, US Department of Defense
Shelving and latching spin readout in atom qubits in silicon
EN Osika, SK Gorman, S Monir, YL Hsueh, M Borscz, H Geng, ...
Physical Review B 106 (7), 075418, 2022
Mandate: US Department of Defense, Australian Research Council
Latched readout for the quantum dot hybrid qubit
J Corrigan, JP Dodson, B Thorgrimsson, SF Neyens, TJ Knapp, ...
Applied Physics Letters 122 (7), 2023
Mandate: US National Science Foundation, US Department of Defense
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