Seguir
Alexander Foerster
Alexander Foerster
Otto-von-Guericke University of Magdebur
Dirección de correo verificada de ovgu.de
Título
Citado por
Citado por
Año
Detecting and resolving process model differences in the absence of a change log
JM Küster, C Gerth, A Förster, G Engels
Business Process Management: 6th International Conference, BPM 2008, Milan …, 2008
2042008
Giant photon bunching, superradiant pulse emission and excitation trapping in quantum-dot nanolasers
F Jahnke, C Gies, M Aßmann, M Bayer, HAM Leymann, A Foerster, ...
Nature communications 7 (1), 11540, 2016
1722016
Process modeling using UML
G Engels, A Förster, R Heckel, S Thöne
Process‐Aware Information Systems: Bridging People and Software through …, 2005
1002005
Sub-and superradiance in nanolasers
HAM Leymann, A Foerster, F Jahnke, J Wiersig, C Gies
Physical Review Applied 4 (4), 044018, 2015
962015
Intensity fluctuations in bimodal micropillar lasers enhanced by quantum-dot gain competition
HAM Leymann, C Hopfmann, F Albert, A Foerster, M Khanbekyan, ...
Physical Review A—Atomic, Molecular, and Optical Physics 87 (5), 053819, 2013
672013
Expectation value based equation-of-motion approach for open quantum systems: A general formalism
HAM Leymann, A Foerster, J Wiersig
Physical Review B 89 (8), 085308, 2014
642014
A Tool for Process Merging in Business-Driven Development.
JM Küster, C Gerth, A Förster, G Engels
CAiSE Forum 344, 2008
552008
Activity diagram patterns for modeling quality constraints in business processes
A Förster, G Engels, T Schattkowsky
Model Driven Engineering Languages and Systems: 8th International Conference …, 2005
492005
Unconventional collective normal-mode coupling in quantum-dot-based bimodal microlasers
M Khanbekyan, HAM Leymann, C Hopfmann, A Foerster, C Schneider, ...
Physical Review A 91 (4), 043840, 2015
202015
Correlations between axial and lateral emission of coupled quantum dot–micropillar cavities
A Musiał, C Hopfmann, T Heindel, C Gies, M Florian, HAM Leymann, ...
Physical Review B 91 (20), 205310, 2015
182015
Expectation value based cluster expansion
HAM Leymann, A Foerster, J Wiersig
physica status solidi (c) 10 (9), 1242-1245, 2013
142013
Effect of direct dissipative coupling of two competing modes on intensity fluctuations in a quantum-dot-microcavity laser
M Fanaei, A Foerster, HAM Leymann, J Wiersig
Physical Review A 94 (4), 043814, 2016
122016
Computer-aided cluster expansion: An efficient algebraic approach for open quantum many-particle systems
A Foerster, HAM Leymann, J Wiersig
Computer Physics Communications 212, 210-219, 2017
102017
Process merging in business-driven development
JM Küster, C Gerth, A Förster, G Engels
Proceedings of the Forum at the CAiSE’08, 2008
92008
Quality ensuring development of software processes
A Förster, G Engels
Software Process Technology: 9th European Workshop, EWSPT 2003, Helsinki …, 2003
82003
Strong photon bunching in a quantum‐dot‐based two‐mode microcavity laser
HAM Leymann, A Foerster, M Khanbekyan, J Wiersig
physica status solidi (b) 250 (9), 1777-1780, 2013
52013
A pattern-driven development process for quality standard-conform business process models
A Förster, R Van Der Straeten, G Engels, T Schattkowsky
Finds and Results from the Swedish Cyprus Expedition: A Gender Perspective …, 2006
42006
Giant photon bunching and quantum correlations in superradiant quantum-dot microcavity lasers
J Wiersig, A Foerster, HAM Leymann, F Jahnke, C Gies, M Aßmann, ...
CLEO: QELS_Fundamental Science, FTu4E. 8, 2017
12017
Theory of Semiconductor Quantum-dot Microcavity Lasers: Computational Modeling and Significance for Experimental Realization
A Foerster
Universitätsbibliothek, 2017
12017
Sub-and Superradiance in Quantum-Dot Microlasers
HAM Leymann, A Foerster, J Wiersig, F Jahnke, C Gies
The European Conference on Lasers and Electro-Optics, CB_4_2, 2015
2015
El sistema no puede realizar la operación en estos momentos. Inténtalo de nuevo más tarde.
Artículos 1–20