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David O. Winge
David O. Winge
Department of Physics, Lund University
Verified email at sljus.lu.se
Title
Cited by
Cited by
Year
Nonequilibrium Green’s function model for simulation of quantum cascade laser devices under operating conditions
A Wacker, M Lindskog, DO Winge
IEEE Journal of Selected Topics in Quantum Electronics 19 (5), 1-11, 2013
1312013
Theory and measurements of harmonic generation in semiconductor superlattices with applications in the 100 GHz to 1 THz range
MF Pereira, JP Zubelli, D Winge, A Wacker, AS Rodrigues, V Anfertev, ...
Physical Review B 96 (4), 045306, 2017
562017
Impact of interface roughness distributions on the operation of quantum cascade lasers
M Franckié, DO Winge, J Wolf, V Liverini, E Dupont, V Trinité, J Faist, ...
Optics Express 23 (4), 5201-5212, 2015
452015
Simple electron-electron scattering in non-equilibrium Green's function simulations
DO Winge, M Franckié, C Verdozzi, A Wacker, MF Pereira
Journal of Physics: Conference Series 696 (1), 012013, 2016
342016
Nonlinear response of quantum cascade structures
DO Winge, M Lindskog, A Wacker
Applied Physics Letters 101 (21), 2012
252012
Influence of interface roughness in quantum cascade lasers
KA Krivas, DO Winge, M Franckie, A Wacker
Journal of Applied Physics 118 (11), 2015
232015
Ignition of quantum cascade lasers in a state of oscillating electric field domains
DO Winge, E Dupont, A Wacker
Physical Review A 98 (2), 023834, 2018
222018
Simulating terahertz quantum cascade lasers: Trends from samples from different labs
DO Winge, M Franckié, A Wacker
Journal of Applied Physics 120 (11), 2016
212016
Injection schemes in THz quantum cascade lasers under operation
M Lindskog, DO Winge, A Wacker
Terahertz Emitters, Receivers, and Applications IV 8846, 8-17, 2013
182013
Superlattice gain in positive differential conductivity region
DO Winge, M Franckié, A Wacker
AIP Advances 6 (4), 2016
132016
Domain formation and self-sustained oscillations in quantum cascade lasers
T Almqvist, DO Winge, E Dupont, A Wacker
The European Physical Journal B 92, 1-6, 2019
122019
Microscopic approach to second harmonic generation in quantum cascade lasers
DO Winge, M Lindskog, A Wacker
Optics Express 22 (15), 18389-18400, 2014
92014
Implementing an insect brain computational circuit using III–V nanowire components in a single shared waveguide optical network
DO Winge, S Limpert, H Linke, MT Borgström, B Webb, S Heinze, ...
ACS photonics 7 (10), 2787-2798, 2020
82020
Quantitative modeling of gain in quantum cascade lasers under operational intensities
D Winge
Lund University, 2016
82016
Selected Topics in Quantum Electronics
A Wacker, M Lindskog, D Winge
IEEE Journal of 19 (5), 1, 2013
72013
Chaotic behavior of quantum cascade lasers at ignition
DE Önder, AAS Kalaee, DO Winge, A Wacker
Communications in Nonlinear Science and Numerical Simulation 103, 105952, 2021
52021
Frequency modulations due to domain dynamics in terahertz quantum cascade lasers
E Önder, DO Winge, M Franckié, A Forrer, U Senica, G Scalari, A Wacker
Journal of Applied Physics 133 (12), 2023
22023
Temperature dependent nonlinear response of quantum cascade structures
DO Winge, A Wacker
Optical and Quantum Electronics 46, 533-539, 2014
22014
Artificial nanophotonic neuron with internal memory for biologically inspired and reservoir network computing
D Winge, M Borgström, E Lind, A Mikkelsen
Neuromorphic Computing and Engineering 3 (3), 034011, 2023
2023
III-V nanowire based neuromorphic nanophotonic circuits
V Flodgren, D Winge, D Alcer, M Borgström, A Mikkelsen
The European Conference on Lasers and Electro-Optics, jsiii_5_2, 2023
2023
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