Matthias C. Löbl
Matthias C. Löbl
Niels Bohr Institute, University of Copenhagen
Verified email at - Homepage
Cited by
Cited by
A bright and fast source of coherent single photons
N Tomm, A Javadi, NO Antoniadis, D Najer, MC Löbl, AR Korsch, R Schott, ...
Nature Nanotechnology 16 (4), 399-403, 2021
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
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
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
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
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
Quantum optics with near-lifetime-limited quantum-dot transitions in a nanophotonic waveguide
H Thyrrestrup, G Kiršanskė, H Le Jeannic, T Pregnolato, L Zhai, ...
Nano letters 18 (3), 1801-1806, 2018
On-chip deterministic operation of quantum dots in dual-mode waveguides for a plug-and-play single-photon source
R Uppu, HT Eriksen, H Thyrrestrup, AD Uğurlu, Y Wang, S Scholz, ...
Nature communications 11 (1), 3782, 2020
Narrow optical linewidths and spin pumping on charge-tunable close-to-surface self-assembled quantum dots in an ultrathin diode
MC Löbl, I Söllner, A Javadi, T Pregnolato, R Schott, L Midolo, ...
Physical Review B 96 (16), 165440, 2017
Near transform-limited quantum dot linewidths in a broadband photonic crystal waveguide
FT Pedersen, Y Wang, CT Olesen, S Scholz, AD Wieck, A Ludwig, ...
ACS Photonics 7 (9), 2343-2349, 2020
Coherent spin-photon interface with waveguide induced cycling transitions
MH Appel, A Tiranov, A Javadi, MC Löbl, Y Wang, S Scholz, AD Wieck, ...
Physical review letters 126 (1), 013602, 2021
Excitons in InGaAs quantum dots without electron wetting layer states
MC Löbl, S Scholz, I Söllner, J Ritzmann, T Denneulin, A Kovács, ...
Communications Physics 2 (1), 93, 2019
Coherent optical control of a quantum-dot spin-qubit in a waveguide-based spin-photon interface
D Ding, MH Appel, A Javadi, X Zhou, MC Löbl, I Söllner, R Schott, ...
Physical Review Applied 11 (3), 031002, 2019
Radiative Auger process in the single-photon limit
MC Löbl, C Spinnler, A Javadi, L Zhai, GN Nguyen, J Ritzmann, L Midolo, ...
Nature nanotechnology 15 (7), 558-562, 2020
Correlations between optical properties and Voronoi-cell area of quantum dots
MC Löbl, L Zhai, JP Jahn, J Ritzmann, Y Huo, AD Wieck, OG Schmidt, ...
Physical Review B 100 (15), 155402, 2019
Large-range frequency tuning of a narrow-linewidth quantum emitter
L Zhai, MC Löbl, JP Jahn, Y Huo, P Treutlein, OG Schmidt, A Rastelli, ...
Applied Physics Letters 117 (8), 2020
Wafer-scale epitaxial modulation of quantum dot density
N Bart, C Dangel, P Zajac, N Spitzer, J Ritzmann, M Schmidt, HG Babin, ...
Nature communications 13 (1), 1633, 2022
Charge tunable GaAs quantum dots in a photonic nip diode
HG Babin, J Ritzmann, N Bart, M Schmidt, T Kruck, L Zhai, MC Löbl, ...
Nanomaterials 11 (10), 2703, 2021
Optically driving the radiative Auger transition
C Spinnler, L Zhai, GN Nguyen, J Ritzmann, AD Wieck, A Ludwig, ...
Nature communications 12 (1), 6575, 2021
Loss-tolerant architecture for quantum computing with quantum emitters
MC Löbl, S Paesani, AS Sřrensen
Quantum 8, 1302, 2024
The system can't perform the operation now. Try again later.
Articles 1–20