Blueprint for a microwave trapped ion quantum computer B Lekitsch, S Weidt, AG Fowler, K Mølmer, SJ Devitt, C Wunderlich, ... Science Advances 3 (2), e1601540, 2017 | 386 | 2017 |
Trapped-ion quantum logic with global radiation fields S Weidt, J Randall, SC Webster, K Lake, AE Webb, I Cohen, T Navickas, ... Physical review letters 117 (22), 220501, 2016 | 165 | 2016 |
Roadmap on STIRAP applications K Bergmann, HC Nägerl, C Panda, G Gabrielse, E Miloglyadov, M Quack, ... Journal of Physics B: Atomic, Molecular and Optical Physics 52 (20), 202001, 2019 | 163 | 2019 |
On the application of radio frequency voltages to ion traps via helical resonators JD Siverns, LR Simkins, S Weidt, WK Hensinger Applied Physics B 107, 921-934, 2012 | 152 | 2012 |
Resilient entangling gates for trapped ions AE Webb, SC Webster, S Collingbourne, D Bretaud, AM Lawrence, ... Physical review letters 121 (18), 180501, 2018 | 106 | 2018 |
Fabrication and operation of a two-dimensional ion-trap lattice on a high-voltage microchip RC Sterling, H Rattanasonti, S Weidt, K Lake, P Srinivasan, SC Webster, ... Nature communications 5 (1), 3637, 2014 | 97 | 2014 |
Simple manipulation of a microwave dressed-state ion qubit SC Webster, S Weidt, K Lake, JJ McLoughlin, WK Hensinger Physical Review Letters 111 (14), 140501, 2013 | 82 | 2013 |
Engineering of microfabricated ion traps and integration of advanced on-chip features ZD Romaszko, S Hong, M Siegele, RK Puddy, FR Lebrun-Gallagher, ... Nature Reviews Physics 2 (6), 285-299, 2020 | 80 | 2020 |
Versatile ytterbium ion trap experiment for operation of scalable ion-trap chips with motional heating and transition-frequency measurements JJ McLoughlin, AH Nizamani, JD Siverns, RC Sterling, MD Hughes, ... Physical Review A—Atomic, Molecular, and Optical Physics 83 (1), 013406, 2011 | 72 | 2011 |
Efficient preparation and detection of microwave dressed-state qubits and qutrits with trapped ions J Randall, S Weidt, ED Standing, K Lake, SC Webster, DF Murgia, ... Physical Review A 91 (1), 012322, 2015 | 71 | 2015 |
Generation of high-fidelity quantum control methods for multilevel systems J Randall, AM Lawrence, SC Webster, S Weidt, NV Vitanov, ... Physical Review A 98 (4), 043414, 2018 | 59 | 2018 |
The impact of hardware specifications on reaching quantum advantage in the fault tolerant regime M Webber, V Elfving, S Weidt, WK Hensinger AVS Quantum Science 4 (1), 2022 | 42 | 2022 |
Generation of spin-motion entanglement in a trapped ion using long-wavelength radiation K Lake, S Weidt, J Randall, ED Standing, SC Webster, WK Hensinger Physical Review A 91 (1), 012319, 2015 | 42 | 2015 |
A high-fidelity quantum matter-link between ion-trap microchip modules M Akhtar, F Bonus, FR Lebrun-Gallagher, NI Johnson, M Siegele-Brown, ... Nature communications 14 (1), 531, 2023 | 40 | 2023 |
Multi-qubit gate with trapped ions for microwave and laser-based implementation I Cohen, S Weidt, WK Hensinger, A Retzker New Journal of Physics 17 (4), 043008, 2015 | 38 | 2015 |
Coherent fluctuation relations: from the abstract to the concrete Z Holmes, S Weidt, D Jennings, J Anders, F Mintert Quantum 3, 124, 2019 | 32 | 2019 |
Ground-state cooling of a trapped ion using long-wavelength radiation S Weidt, J Randall, SC Webster, ED Standing, A Rodriguez, AE Webb, ... Physical review letters 115 (1), 013002, 2015 | 30 | 2015 |
Efficient qubit routing for a globally connected trapped ion quantum computer M Webber, S Herbert, S Weidt, WK Hensinger Advanced Quantum Technologies 3 (8), 2000027, 2020 | 25 | 2020 |
Optimization of two-dimensional ion trap arrays for quantum simulation JD Siverns, S Weidt, K Lake, B Lekitsch, MD Hughes, WK Hensinger New Journal of Physics 14 (8), 085009, 2012 | 22 | 2012 |
Quantum control methods for robust entanglement of trapped ions CH Valahu, I Apostolatos, S Weidt, WK Hensinger Journal of Physics B: Atomic, Molecular and Optical Physics 55 (20), 204003, 2022 | 16 | 2022 |