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Daniel Riedel
Daniel Riedel
Quantum Research Scientist at AWS
Verified email at amazon.com
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Cited by
Cited by
Year
Room-temperature quantum microwave emitters based on spin defects in silicon carbide
H Kraus, VA Soltamov, D Riedel, S Väth, F Fuchs, A Sperlich, PG Baranov, ...
Nature Physics 10 (2), 157-162, 2014
2812014
Deterministic enhancement of coherent photon generation from a nitrogen-vacancy center in ultrapure diamond
D Riedel, I Söllner, BJ Shields, S Starosielec, P Appel, E Neu, ...
Physical Review X 7, 031040, 2017
2172017
Resonant addressing and manipulation of silicon vacancy qubits in silicon carbide
D Riedel, F Fuchs, H Kraus, S Väth, A Sperlich, V Dyakonov, ...
Physical review letters 109 (22), 226402, 2012
2142012
A gated quantum dot strongly coupled to an optical microcavity
D Najer, I Söllner, P Sekatski, V Dolique, MC Löbl, D Riedel, R Schott, ...
Nature 575 (7784), 622-627, 2019
2122019
A quantum photonic interface for tin-vacancy centers in diamond
AE Rugar, S Aghaeimeibodi, D Riedel, C Dory, H Lu, PJ McQuade, ...
Physical Review X 11, 031021, 2021
772021
Low-loss broadband antenna for efficient photon collection from a coherent spin in diamond
D Riedel, D Rohner, M Ganzhorn, T Kaldewey, P Appel, E Neu, ...
Physical review applied 2 (6), 064011, 2014
732014
Fabrication of mirror templates in silica with micron-sized radii of curvature
D Najer, M Renggli, D Riedel, S Starosielec, RJ Warburton
Applied Physics Letters 110 (1), 2017
402017
Advanced fabrication of single-crystal diamond membranes for quantum technologies
M Challier, S Sonusen, A Barfuss, D Rohner, D Riedel, J Koelbl, ...
Micromachines 9 (4), 148, 2018
332018
Electrical tuning of tin-vacancy centers in diamond
S Aghaeimeibodi, D Riedel, AE Rugar, C Dory, J Vučković
Physical Review Applied 15 (6), 064010, 2021
292021
Cavity-Enhanced Raman Scattering for In Situ Alignment and Characterization of Solid-State Microcavities
D Riedel, S Flågan, P Maletinsky, RJ Warburton
Physical Review Applied 13 (1), 014036, 2020
252020
Microwave spin control of a tin-vacancy qubit in diamond
EI Rosenthal, CP Anderson, HC Kleidermacher, AJ Stein, H Lee, ...
Physical Review X 13 (3), 031022, 2023
172023
Suppression of surface-related loss in a gated semiconductor microcavity
D Najer, N Tomm, A Javadi, AR Korsch, B Petrak, D Riedel, V Dolique, ...
Physical Review Applied 15 (4), 044004, 2021
172021
A diamond-confined open microcavity featuring a high quality-factor and a small mode-volume
S Flågan, D Riedel, A Javadi, T Jakubczyk, P Maletinsky, RJ Warburton
Journal of Applied Physics 131 (11), 2022
142022
Microcavity platform for widely tunable optical double resonance
S Flågan, P Maletinsky, RJ Warburton, D Riedel
Optica 9 (10), 1197-1209, 2022
102022
A gated quantum dot far in the strong-coupling regime of cavity-QED at optical frequencies
D Najer, I Söllner, P Sekatski, V Dolique, MC Löbl, D Riedel, R Schott, ...
arXiv preprint arXiv:1812.08662, 2018
72018
Cryogenic packaging of nanophotonic devices with a low coupling loss< 1 dB
B Zeng, C De-Eknamkul, D Assumpcao, D Renaud, Z Wang, D Riedel, ...
Applied Physics Letters 123 (16), 2023
52023
Efficient photonic integration of diamond color centers and thin-film lithium niobate
D Riedel, H Lee, JF Herrmann, J Grzesik, V Ansari, JM Borit, ...
ACS Photonics 10 (12), 4236-4243, 2023
42023
Widely-tunable, doubly-resonant Raman scattering on diamond in an open microcavity
S Flågan, P Maletinsky, RJ Warburton, D Riedel
arXiv preprint arXiv:2110.06242, 2021
32021
A Charge-Tunable Quantum Dot Deep in The Strong Coupling Regime of Cavity QED
D Najer, I Söllner, MC Loebl, D Riedel, B Petrak, S Starosielec, V Dolique, ...
2018 IEEE Photonics Society Summer Topical Meeting Series (SUM), 169-170, 2018
32018
A nanophotonic interface for tin-vacancy spin qubits in diamond
S Aghaeimeibodi, A Rugar, D Riedel, C Dory, SD Mishra, S Sun, H Lu, ...
Quantum Nanophotonic Materials, Devices, and Systems 2021 11806, 22-27, 2021
22021
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