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Stephan Reitzenstein
Researcher at Technical University of Berlin
Publications - 444
Citations - 13049
Stephan Reitzenstein is an academic researcher from Technical University of Berlin. The author has contributed to research in topics: Quantum dot & Photon. The author has an hindex of 51, co-authored 406 publications receiving 11384 citations. Previous affiliations of Stephan Reitzenstein include Conrad Hotels & University of Würzburg.
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Journal ArticleDOI
A bright triggered twin-photon source in the solid state
Tobias Heindel,Alexander Thoma,M. von Helversen,Marco Schmidt,Marco Schmidt,Alexander Schlehahn,Manuel Gschrey,Peter Schnauber,Jan-Hindrik Schulze,André Strittmatter,Jörn Beyer,Sven Rodt,Alexander Carmele,Andreas Knorr,Stephan Reitzenstein +14 more
TL;DR: The realization of integrated light sources capable of emitting non-classical multi-photon states, including photon twins, using probabilistic parametric down-conversion sources or atoms is demonstrated.
Journal ArticleDOI
Single Quantum Dot with Microlens and 3D-Printed Micro-objective as Integrated Bright Single-Photon Source
Sarah Fischbach,Alexander Schlehahn,Alexander Thoma,Nicole Srocka,Timo Gissibl,Simon Ristok,Simon Thiele,Arsenty Kaganskiy,André Strittmatter,Tobias Heindel,Sven Rodt,Alois Herkommer,Harald Giessen,Stephan Reitzenstein +13 more
TL;DR: A bright single-photon source realized by on-chip integration of a deterministic quantum dot microlens with a 3D-printed multilens micro-objective to highlight the opportunities that arise from tailoring the optical properties of quantum emitters using integrated optics.
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From polariton condensates to highly photonic quantum degenerate states of bosonic matter
Marc Assmann,Jean-Sebastian Tempel,Franziska Veit,Manfred Bayer,Arash Rahimi-Iman,Andreas Löffler,Sven Höfling,Stephan Reitzenstein,Lukas Worschech,Alfred Forchel +9 more
TL;DR: It is shown that key signatures of BEC can even be observed without fulfilling the self-equilibrium condition in a highly photonic quantum degenerate nonequilibrium system.
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Bloch-wave engineering of quantum dot micropillars for cavity quantum electrodynamics experiments.
M. Lermer,Niels Gregersen,Florian Dunzer,Stephan Reitzenstein,Sven Höfling,Jesper Mørk,Lukas Worschech,Martin Kamp,Alfred Forchel +8 more
TL;DR: Bloch-wave engineering is employed to realize submicron diameter high quality factor GaAs/AlAs micropillars (MPs) that lead to record-high vacuum Rabi splitting of the strong coupling in MPs with modest oscillator strength quantum dots.
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Control of the Strong Light-Matter Interaction between an Elongated In 0.3 Ga 0.7 As Quantum Dot and a Micropillar Cavity Using External Magnetic Fields
Stephan Reitzenstein,S. Munch,P. Franeck,A. Rahimi-Iman,Andreas Löffler,Sven Höfling,L. Worschech,Alfred Forchel +7 more
TL;DR: A transition from strong coupling towards the critical coupling regime is attributed to a reduction of the quantum dot oscillator strength when the magnetic confinement becomes significant with regards to the exciton confinement above 3 T.