Daniel J. Weigand
Daniel J. Weigand
Geverifieerd e-mailadres voor tudelft.nl
Geciteerd door
Geciteerd door
Encoding a qubit into a cavity mode in circuit QED using phase estimation
BM Terhal, D Weigand
Physical Review A 93 (1), 012315, 2016
Single-mode displacement sensor
K Duivenvoorden, BM Terhal, D Weigand
Physical Review A 95 (1), 012305, 2017
Generating grid states from Schrödinger-cat states without postselection
DJ Weigand, BM Terhal
Physical Review A 97 (2), 022341, 2018
Diattenuation of brain tissue and its impact on 3D polarized light imaging
M Menzel, J Reckfort, D Weigand, H Köse, K Amunts, M Axer
Biomedical optics express 8 (7), 3163-3197, 2017
Realizing modular quadrature measurements via a tunable photon-pressure coupling in circuit QED
DJ Weigand, BM Terhal
Physical Review A 101 (5), 053840, 2020
Microcrystalline thin-film solar cell deposition on moving substrates using a linear VHF-PECVD reactor and a cross-flow geometry
AJ Flikweert, T Zimmermann, T Merdzhanova, D Weigand, W Appenzeller, ...
Journal of Physics D: Applied Physics 45 (1), 015101, 2011
Thin-film silicon solar cells applying optically decoupled back reflectors
E Moulin, UW Paetzold, K Bittkau, M Ermes, L Ding, L Fanni, S Nicolay, ...
Materials Science and Engineering: B 178 (9), 645-650, 2013
How Thin Practical Silicon Heterojunction Solar Cells Could Be? Experimental Study under 1 Sun and under Indoor Illumination
U Chime, L Wolf, V Buga, D Weigand, A Gad, J Köhler, A Lambertz, ...
Solar RRL 6 (1), 2100594, 2022
Module-level direct coupling in PV-battery power unit under realistic irradiance and load
U Chibuko, T Merdzhanova, D Weigand, F Ezema, S Agbo, U Rau, ...
Solar energy 249, 233-241, 2023
How thin practical silicon heterojunction solar cells could be
U Chime, L Wolf, V Buga, D Weigand, A Gad, J Köhler, A Lambertz, ...
Experimental study under 1, 2022
Scalable quantum error correction with the bosonic GKP code
B Terhal, L Pryadko, D Weigand, Y Wang, H Asasi, C Vuillot
APS March Meeting Abstracts 2019, F62. 004, 2019
Encoding a Qubit into an Oscillator with Near-Term Experimental Devices.
DJ Weigand
Delft University of Technology, Netherlands, 2020
Control stacks for quantum advantage
F Battistel, B Binaei Haghighi, D Boddou, M Büyükmıhcı, ...
Bulletin of the American Physical Society, 2024
Fast qubit experiments using Qiskit and Quantify-a control stack designed for Experimentalists
D Weigand, A Andersson, D de Jong, D Vos, E Reehuis, G Denes, ...
Bulletin of the American Physical Society, 2024
CO2 Electroreduction To Syngas With Tunable Composition In An Artificial Leaf**
FLP Veenstra, T Cibaka, AJ Martín, D Weigand, J Kirchhoff, V Smirnov, ...
ChemSusChem 17 (4), e202301398, 2024
Breeding Grid States From Schrödinger Cat States without Post-Selection
D Weigand, B Terhal
APS March Meeting Abstracts 2018, L28. 004, 2018
Breeding Grid States from Schrödinger Cat States
D Weigand, BM Terhal
Quantum Information and Measurement, QF6B. 5, 2017
Grid state displacement sensor under noise
D Weigand, K Duivenvoorden, B Terhal
APS March Meeting Abstracts 2017, V46. 010, 2017
Observation of quantum state collapse and revival due to the single-photon Kerr effect
D Weigand
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Artikelen 1–19