Folgen
Markus Kantner
Titel
Zitiert von
Zitiert von
Jahr
Beyond just “flattening the curve”: Optimal control of epidemics with purely non-pharmaceutical interventions
M Kantner, T Koprucki
Journal of Mathematics in Industry 10 (1), 1-23, 2020
862020
Drift-diffusion models
P Farrell, N Rotundo, DH Doan, M Kantner, J Fuhrmann, T Koprucki
Handbook of Optoelectronic Device Modeling and Simulation, 733-772, 2017
812017
Numerical simulation of carrier transport in semiconductor devices at cryogenic temperatures
M Kantner, T Koprucki
Optical and Quantum Electronics 48 (12), 543, 2016
362016
Delay-induced patterns in a two-dimensional lattice of coupled oscillators
M Kantner, E Schöll, S Yanchuk
Scientific reports 5, 8522, 2015
292015
Generalized Scharfetter–Gummel schemes for electro-thermal transport in degenerate semiconductors using the Kelvin formula for the Seebeck coefficient
M Kantner
Journal of Computational Physics 402, 109091, 2020
282020
Hybrid quantum-classical modeling of quantum dot devices
M Kantner, M Mittnenzweig, T Koprucki
Physical Review B 96 (20), 205301, 2017
262017
Efficient current injection into single quantum dots through oxide-confined pn-diodes
M Kantner, U Bandelow, T Koprucki, JH Schulze, A Strittmatter, ...
IEEE Transactions on Electron Devices 63 (5), 2036-2042, 2016
252016
Bifurcation analysis of delay-induced patterns in a ring of Hodgkin–Huxley neurons
M Kantner, S Yanchuk
Philosophical Transactions of the Royal Society A: Mathematical, Physical …, 2013
182013
Consistency and convergence for a family of finite volume discretizations of the Fokker–Planck operator
M Heida, M Kantner, A Stephan
ESAIM: Mathematical Modelling and Numerical Analysis 55 (6), 3017-3042, 2021
132021
Semiconductor laser linewidth theory revisited
H Wenzel, M Kantner, M Radziunas, U Bandelow
Applied Sciences 11 (13), 6004, 2021
92021
Handbook of optoelectronic device modeling and simulation
P Farrell, N Rotundo, DH Doan, M Kantner, J Fuhrmann, T Koprucki
CRC Press 2, 733, 2017
92017
Hybrid modeling of quantum light emitting diodes: self-consistent coupling of drift-diffusion, Schrödinger-Poisson, and quantum master equations
M Kantner
Physics and Simulation of Optoelectronic Devices XXVII 10912, 109120U, 2019
72019
ddfermi–a drift-diffusion simulation tool
DH Doan, P Farrell, J Fuhrmann, M Kantner, T Koprucki, N Rotundo
Weierstrass Institute (WIAS), doi: http://doi. org/10.20347/WIAS. SOFTWARE 14, 2016
72016
Deterministic quantum devices for optical quantum communication
S Rodt, PI Schneider, L Zschiedrich, T Heindel, S Bounouar, M Kantner, ...
Semiconductor Nanophotonics: Materials, Models, and Devices, 285-359, 2020
52020
A hybrid quantum-classical modeling approach for electrically driven quantum light sources
M Kantner, M Mittnenzweig, T Koprucki
Physics and Simulation of Optoelectronic Devices XXVI 10526, 1052603, 2018
52018
Modeling and Simulation of Electrically Driven Quantum Dot Based Single-photon Sources: From Classical Device Physics to Open Quantum Systems
M Kantner
Technische Universität Berlin, 2018
52018
On modifications of the Scharfetter-Gummel scheme for drift-diffusion equations with Fermi-like statistical distribution functions
T Koprucki, M Kantner, J Fuhrmann, K Gärtner
Numerical Simulation of Optoelectronic Devices, 2014, 155-156, 2014
52014
Stressor-Induced Site Control of Quantum Dots for Single-Photon Sources
UW Pohl, A Strittmatter, A Schliwa, M Lehmann, T Niermann, T Heindel, ...
Semiconductor Nanophotonics, 53-90, 2020
42020
Mathematical modeling of semiconductors: From quantum mechanics to devices
M Kantner, A Mielke, M Mittnenzweig, N Rotundo
Topics in Applied Analysis and Optimisation, 269-293, 2019
42019
Drift-diffusion models, Handbook of Optoelectronic Device Modeling and Simulation, chap. 50 (J. Piprek, ed.), vol. 2
P Farrell, N Rotundo, DH Doan, M Kantner, J Fuhrmann, T Koprucki
CRC Press Taylor & Francis, 2017
32017
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20