Articles with public access mandates - Christopher GiesLearn more
Not available anywhere: 23
Influence of Excited Carriers on the Optical and Electronic Properties of MoS2
A Steinhoff, M Rosner, F Jahnke, TO Wehling, C Gies
Nano letters 14 (7), 3743-3748, 2014
Mandates: German Research Foundation
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
Mandates: German Research Foundation
Semiconductor model for quantum-dot-based microcavity lasers
C Gies, J Wiersig, M Lorke, F Jahnke
Physical Review A—Atomic, Molecular, and Optical Physics 75 (1), 013803, 2007
Mandates: German Research Foundation
Monolithically integrated high-β nanowire lasers on silicon
B Mayer, L Janker, B Loitsch, J Treu, T Kostenbader, S Lichtmannecker, ...
Nano letters 16 (1), 152-156, 2016
Mandates: German Research Foundation
Two-dimensional heterojunctions from nonlocal manipulations of the interactions
M Rosner, C Steinke, M Lorke, C Gies, F Jahnke, TO Wehling
Nano Letters 16 (4), 2322-2327, 2016
Mandates: German Research Foundation
Sub-and superradiance in nanolasers
HAM Leymann, A Foerster, F Jahnke, J Wiersig, C Gies
Physical Review Applied 4 (4), 044018, 2015
Mandates: German Research Foundation
Luminescence of a semiconductor quantum dot system
N Baer, C Gies, J Wiersig, F Jahnke
The European Physical Journal B-Condensed Matter and Complex Systems 50, 411-418, 2006
Mandates: German Research Foundation
Influence of the spontaneous optical emission factor on the first-order coherence of a semiconductor microcavity laser
S Ates, C Gies, SM Ulrich, J Wiersig, S Reitzenstein, A Löffler, A Forchel, ...
Physical Review B—Condensed Matter and Materials Physics 78 (15), 155319, 2008
Mandates: German Research Foundation
Equation-of-motion technique for finite-size quantum-dot systems: Cluster expansion method
M Florian, C Gies, F Jahnke, HAM Leymann, J Wiersig
Physical Review B—Condensed Matter and Materials Physics 87 (16), 165306, 2013
Mandates: German Research Foundation
Output Characteristics of Pulsed and Continuous-Wave-Excited<? format?> Quantum-Dot Microcavity Lasers
C Gies, J Wiersig, F Jahnke
Physical review letters 101 (6), 067401, 2008
Mandates: German Research Foundation
Quantum dot micropillar lasers
C Gies, S Reitzenstein
Semiconductor Science and Technology 34 (7), 073001, 2019
Mandates: German Research Foundation, European Commission
Strong antibunching from electrically driven devices with long pulses: A regime for quantum-dot single-photon generation
CA Kessler, M Reischle, F Hargart, WM Schulz, M Eichfelder, R Roßbach, ...
Physical Review B—Condensed Matter and Materials Physics 86 (11), 115326, 2012
Mandates: German Research Foundation
Improved antibunching by using high-excitation pulses from a single semiconductor quantum dot—a theoretical study
M Florian, C Gies, P Gartner, F Jahnke
JOSA B 29 (2), A31-A35, 2012
Mandates: German Research Foundation
Theory of quantum light sources and cavity-QED emitters based on semiconductor quantum dots
C Gies, M Florian, A Steinhoff, F Jahnke
Quantum dots for quantum information technologies, 3-40, 2017
Mandates: German Research Foundation, Federal Ministry of Education and Research, Germany
Scattering-induced dephasing of many-particle transitions in semiconductor quantum dots
M Florian, A Steinhoff, C Gies, F Jahnke
Applied Physics B 122, 1-7, 2016
Mandates: German Research Foundation
Quantum Statistical Properties of the Light Emission from Quantum Dots in Microcavities
C Gies, J Wiersig, F Jahnke
Single Semiconductor Quantum Dots, 1-30, 2009
Mandates: German Research Foundation
Intrinsic non-exponential decay of time-resolved photoluminescence from semiconductor quantum dots
J Wiersig, C Gies, N Baer, F Jahnke
Advances in Solid State Physics, 91-102, 2009
Mandates: German Research Foundation
Quantum-Dot Nanolasers
C Gies, M Lorke, F Jahnke, WW Chow
Handbook of Optoelectronic Device Modeling and Simulation, 627-660, 2017
Mandates: US Department of Energy, German Research Foundation
Leveraging Quantum Dynamics for Physical Computing Applications
F Lohof, N Götting, C Gies
2023 IEEE International Conference on Quantum Computing and Engineering (QCE …, 2023
Mandates: German Research Foundation, Agence Nationale de la Recherche
Lineshape Anomaly in Lasers Operating Close to Fundamental Limit: Theory and Experiment
A Koulas-Simos, J Buchgeister, ML Drechsler, T Zhang, K Laiho, ...
2022 28th International Semiconductor Laser Conference (ISLC), 1-2, 2022
Mandates: US Department of Energy, National Natural Science Foundation of China …
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