Folgen
Arne Ludwig
Arne Ludwig
Wissenschaftlicher Mitarbeiter, Ruhr-Universität Bochum
Bestätigte E-Mail-Adresse bei rub.de
Titel
Zitiert von
Zitiert von
Jahr
Charge noise and spin noise in a semiconductor quantum device
AV Kuhlmann, J Houel, A Ludwig, L Greuter, D Reuter, AD Wieck, ...
Nature Physics 9, 570-575, 2013
5092013
A bright and fast source of coherent single photons
N Tomm, A Javadi, N Antoniadis, D Najer, M Löbl, A Korsch, R Schott, ...
Nat. Nanotechnol. 16, 399–403, 2021
3992021
Transform-limited single photons from a single quantum dot
AV Kuhlmann, JH Prechtel, J Houel, A Ludwig, D Reuter, AD Wieck, ...
Nature communications 6, 8204, 2015
2712015
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
2202019
Probing single-charge fluctuations at a GaAs/AlAs interface using laser spectroscopy on a nearby InGaAs quantum dot
J Houel, AV Kuhlmann, L Greuter, F Xue, M Poggio, BD Gerardot, ...
Physical Review Letters 108 (10), 107401, 2012
2102012
Scalable integrated single-photon source
R Uppu, FT Pedersen, Y Wang, CT Olesen, C Papon, X Zhou, L Midolo, ...
Science Advances 6 (50), eabc8268, 2020
1972020
A dark-field microscope for background-free detection of resonance fluorescence from single semiconductor quantum dots operating in a set-and-forget mode
AV Kuhlmann, J Houel, D Brunner, A Ludwig, D Reuter, AD Wieck, ...
Review of Scientific Instruments 84, 073905, 2013
1722013
Indistinguishable and efficient single photons from a quantum dot in a planar nanobeam waveguide
G Kiršanskė, H Thyrrestrup, RS Daveau, CL Dreeßen, T Pregnolato, ...
Physical Review B 96 (16), 165306, 2017
1272017
Spin–photon interface and spin-controlled photon switching in a nanobeam waveguide
A Javadi, D Ding, MH Appel, S Mahmoodian, MC Löbl, I Söllner, R Schott, ...
Nature nanotechnology 13 (5), 398-403, 2018
1172018
Decoupling a hole spin qubit from the nuclear spins
JH Prechtel, AV Kuhlmann, J Houel, A Ludwig, SR Valentin, AD Wieck, ...
Nature materials 15 (9), 981-986, 2016
1172016
Low-noise GaAs quantum dots for quantum photonics
L Zhai, MC Löbl, GN Nguyen, J Ritzmann, A Javadi, C Spinnler, AD Wieck, ...
Nature communications 11 (1), 4745, 2020
1122020
A small mode volume tunable microcavity: Development and characterization
L Greuter, S Starosielec, D Najer, A Ludwig, L Duempelmann, D Rohner, ...
Applied Physics Letters 105 (12), 121105, 2014
1052014
Fast spin information transfer between distant quantum dots using individual electrons
B Bertrand, S Hermelin, S Takada, M Yamamoto, S Tarucha, A Ludwig, ...
Nature nanotechnology 11 (8), 672-676, 2016
1032016
Direct Photonic Coupling of a Semiconductor Quantum Dot and a Trapped Ion
HM Meyer, R Stockill, M Steiner, CL Gall, C Matthiesen, E Clarke, ...
Phys. Rev. Lett. 114, 123001, 2015
952015
Coherent control of individual electron spins in a two-dimensional quantum dot array
PA Mortemousque, E Chanrion, B Jadot, H Flentje, A Ludwig, AD Wieck, ...
Nature Nanotechnology 16 (3), 296-301, 2021
91*2021
Auger recombination in self-assembled quantum dots: Quenching and broadening of the charged exciton transition
A Kurzmann, A Ludwig, AD Wieck, A Lorke, M Geller
Nano letters 16 (5), 3367-3372, 2016
902016
Quantum interference of identical photons from remote GaAs quantum dots
L Zhai, GN Nguyen, C Spinnler, J Ritzmann, MC Löbl, AD Wieck, ...
Nature Nanotechnology 17 (8), 829-833, 2022
852022
Quantum Manipulation of Two-Electron Spin States in Isolated Double Quantum Dots
T Bertrand, Benoit and Flentje, Hanno and Takada, Shintaro and Yamamoto ...
Phys. Rev. Lett. 115, 096801, 2015
822015
Quantum non-demolition measurement of an electron spin qubit
T Nakajima, A Noiri, J Yoneda, MR Delbecq, P Stano, T Otsuka, K Takeda, ...
Nature nanotechnology 14 (6), 555-560, 2019
772019
Observation of the Kondo screening cloud
IV Borzenets, J Shim, JCH Chen, A Ludwig, AD Wieck, S Tarucha, HS Sim, ...
Nature 579 (7798), 210-213, 2020
762020
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20