Stephan Reitzenstein
Stephan Reitzenstein
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Cited by
Cited by
Strong coupling in a single quantum dot–semiconductor microcavity system
JP Reithmaier, G Sęk, A Löffler, C Hofmann, S Kuhn, S Reitzenstein, ...
Nature 432 (7014), 197-200, 2004
An electrically pumped polariton laser
C Schneider, A Rahimi-Iman, NY Kim, J Fischer, IG Savenko, M Amthor, ...
Nature 497 (7449), 348-352, 2013
Photon antibunching from a single quantum dot-microcavity system in the strong coupling regime
D Press, S Götzinger, S Reitzenstein, C Hofmann, A Löffler, M Kamp, ...
arXiv preprint quant-ph/0609193, 2006
AlAs∕ GaAs micropillar cavities with quality factors exceeding 150.000
S Reitzenstein, C Hofmann, A Gorbunov, M Strauß, SH Kwon, ...
Applied Physics Letters 90 (25), 2007
Highly indistinguishable photons from deterministic quantum-dot microlenses utilizing three-dimensional in situ electron-beam lithography
M Gschrey, A Thoma, P Schnauber, M Seifried, R Schmidt, B Wohlfeil, ...
Nature communications 6 (1), 7662, 2015
Post-selected indistinguishable photons from the resonance fluorescence of a single quantum dot in a microcavity
S Ates, SM Ulrich, S Reitzenstein, A Löffler, A Forchel, P Michler
Physical Review Letters 103 (16), 167402, 2009
2022 Roadmap on integrated quantum photonics
G Moody, VJ Sorger, DJ Blumenthal, PW Juodawlkis, W Loh, ...
Journal of Physics: Photonics 4 (1), 012501, 2022
Photon statistics of semiconductor microcavity lasers
SM Ulrich, C Gies, S Ates, J Wiersig, S Reitzenstein, C Hofmann, A Löffler, ...
Physical review letters 98 (4), 043906, 2007
Direct observation of correlations between individual photon emission events of a microcavity laser
J Wiersig, C Gies, F Jahnke, M Aßmann, T Berstermann, M Bayer, ...
Nature 460 (7252), 245-249, 2009
Electrically driven quantum dot-micropillar single photon source with 34% overall efficiency
T Heindel, C Schneider, M Lermer, SH Kwon, T Braun, S Reitzenstein, ...
Applied Physics Letters 96 (1), 2010
Non-resonant dot–cavity coupling and its potential for resonant single-quantum-dot spectroscopy
S Ates, SM Ulrich, A Ulhaq, S Reitzenstein, A Löffler, S Höfling, A Forchel, ...
Nature Photonics 3 (12), 724-728, 2009
Exploring dephasing of a solid-state quantum emitter via time-and temperature-dependent Hong-Ou-Mandel experiments
A Thoma, P Schnauber, M Gschrey, M Seifried, J Wolters, JH Schulze, ...
Physical review letters 116 (3), 033601, 2016
Direct comparison of catalyst-free and catalyst-induced GaN nanowires
C Chèze, L Geelhaar, O Brandt, WM Weber, H Riechert, S Münch, ...
Nano Research 3, 528-536, 2010
Up on the Jaynes–Cummings ladder of a quantum-dot/microcavity system
J Kasprzak, S Reitzenstein, EA Muljarov, C Kistner, C Schneider, ...
Nature materials 9 (4), 304-308, 2010
Dephasing of Mollow triplet sideband emission of a resonantly driven quantum dot in a microcavity
SM Ulrich, S Ates, S Reitzenstein, A Löffler, A Forchel, P Michler
arXiv preprint arXiv:1103.1594, 2011
Quantum dot micropillars
S Reitzenstein, A Forchel
Journal of Physics D: Applied Physics 43 (3), 033001, 2010
Electrically driven high-Q quantum dot-micropillar cavities
C Böckler, S Reitzenstein, C Kistner, R Debusmann, A Löffler, T Kida, ...
Applied Physics Letters 92 (9), 2008
Observation of non-Markovian dynamics of a single quantum dot in a micropillar cavity
KH Madsen, S Ates, T Lund-Hansen, A Löffler, S Reitzenstein, A Forchel, ...
Physical review letters 106 (23), 233601, 2011
Quantum key distribution using quantum dot single-photon emitting diodes in the red and near infrared spectral range
T Heindel, CA Kessler, M Rau, C Schneider, M Fürst, F Hargart, ...
New Journal of Physics 14 (8), 083001, 2012
Lithographic alignment to site-controlled quantum dots for device integration
C Schneider, M Strauß, T Sünner, A Huggenberger, D Wiener, ...
Applied Physics Letters 92 (18), 2008
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