Alexander Schlehahn
Alexander Schlehahn
Osram Opto Semiconductors
Verified email at
Cited by
Cited by
A stand-alone fiber-coupled single-photon source
A Schlehahn, S Fischbach, R Schmidt, A Kaganskiy, A Strittmatter, S Rodt, ...
Scientific reports 8 (1), 1-7, 2018
An electrically driven cavity-enhanced source of indistinguishable photons with 61% overall efficiency
A Schlehahn, A Thoma, P Munnelly, M Kamp, S Höfling, T Heindel, ...
APL Photonics 1 (1), 011301, 2016
Single quantum dot with microlens and 3D-printed micro-objective as integrated bright single-photon source
S Fischbach, A Schlehahn, A Thoma, N Srocka, T Gissibl, S Ristok, ...
ACS photonics 4 (6), 1327-1332, 2017
A bright triggered twin-photon source in the solid state
T Heindel, A Thoma, M von Helversen, M Schmidt, A Schlehahn, ...
Nature communications 8 (1), 1-7, 2017
Single-photon emission at a rate of 143 MHz from a deterministic quantum-dot microlens triggered by a mode-locked vertical-external-cavity surface-emitting laser
A Schlehahn, M Gaafar, M Vaupel, M Gschrey, P Schnauber, JH Schulze, ...
Applied Physics Letters 107 (4), 041105, 2015
Generating single photons at gigahertz modulation-speed using electrically controlled quantum dot microlenses
A Schlehahn, R Schmidt, C Hopfmann, JH Schulze, A Strittmatter, ...
Applied Physics Letters 108 (2), 021104, 2016
Mode selection in electrically driven quantum dot microring cavities
A Schlehahn, F Albert, C Schneider, S Höfling, S Reitzenstein, J Wiersig, ...
Optics express 21 (13), 15951-15958, 2013
Operating single quantum emitters with a compact Stirling cryocooler
A Schlehahn, L Krüger, M Gschrey, JH Schulze, S Rodt, A Strittmatter, ...
Review of Scientific Instruments 86 (1), 013113, 2015
Advanced in-situ electron-beam lithography for deterministic nanophotonic device processing
A Kaganskiy, M Gschrey, A Schlehahn, R Schmidt, JH Schulze, T Heindel, ...
Review of Scientific Instruments 86 (7), 073903, 2015
Bright single-photon sources based on anti-reflection coated deterministic quantum dot microlenses
P Schnauber, A Thoma, CV Heine, A Schlehahn, L Gantz, M Gschrey, ...
Technologies 4 (1), 1, 2016
APL Photonics 1, 011301 (2016)
A Schlehahn, A Thoma, P Munnelly, M Kamp, S Höfling, T Heindel, ...
Optoelectronic device
A Schlehahn, T Heindel, S Rodt, S Reitzenstein
US Patent 9,599,782, 2017
Hybrid microcavity for superminiature single quantum dot based emitters
VA Gaisler, IA Derebezov, AV Gaisler, DV Dmitriev, AI Toropov, ...
Optoelectronics, Instrumentation and Data Processing 53 (2), 178-183, 2017
Гибридный микрорезонатор для сверхминиатюрных излучателей на основе одиночных полупроводниковых квантовых точек
ВА Гайслер, ИА Деребезов, АВ Гайслер, ДВ Дмитриев, АИ Торопов
Автометрия 53 (2), 95-101, 2017
Entwicklung einer autark operierenden Plug-and-Play-Einzelphotonenemittereinheit
A Schlehahn
PQDT-Global, 2018
Subminiature emitters based on a single (111) In (Ga) As quantum dot and hybrid microcavity
IA Derebezov, VA Gaisler, AV Gaisler, DV Dmitriev, AI Toropov, ...
Semiconductors 51 (11), 1399-1402, 2017
High-β micropillar lasers with site-controlled quantum dots fabricated via a buried stressor approach
A Kaganskiy, T Heuser, A Schlehahn, F Gericke, X Porte, T Heindel, ...
The European Conference on Lasers and Electro-Optics, CB_4_2, 2017
Generating single photons at GHz modulation-speed using electrically controlled quantum dot microlenses
A Schlehahn, R Schmidt, C Hopfmann, JH Schulze, A Strittmatter, ...
arXiv preprint arXiv:1510.07314, 2015
Room temperature, continuous wave lasing in microcylinder and microring quantum dot laser diodes
F Albert, A Schlehahn, F Langer, T Schlereth, M Pieczarka, S Höfling, ...
ISLC 2012 International Semiconductor Laser Conference, 64-65, 2012
Growth and Processing of Quantum Dot-Micropillar Lasers via the Buried Stressor Approach
A Kaganskiy, T Heuser, J Große, A Schlehahn, S Rodt, A Strittmatter, ...
The system can't perform the operation now. Try again later.
Articles 1–20