The theory of nonequilibrium Green functions allows for a quantitative modeling of quantum cascade lasers. Explicit results are given for transport in a THz-laser and gain in a IR-Lase
Current response and gain spectrum of a terahertz quantum cascade laser is analyzed at different tem...
A many-body theory based on nonequilibrium Green functions, in which transport and optics are treate...
We study the operation of an 8.5 µm quantum cascade laser based on GaInAs/AlInAs lattice matched to ...
The theory of nonequilibrium Green functions allows for a quantitative modeling of quantum cascade l...
This thesis adresses modeling of quantum cascade lasers using non-equilibrium Green’s functions. Foc...
Quantum cascade lasers can be modeled within a hierarchy of different approaches: Standard rate equa...
The gain profile of a quantum cascade laser is strongly influenced by the lifetime of the carriers i...
Nonequilibrium optical gain is computed for quantum cascade lasers. The Greens functions theory cons...
This paper complements recent results on the Nonequilibrium Green’s Functions simulations of Quantum...
The method of nonequilibrium Greens functions allows for a spatial and energetical resolution of the...
The complex interplay by tunneling and scattering in quantum cascade lasers is analyzed with nonequi...
The current State of the Art Nonequilibrium Keldysh Greens functions approaches to the calculation o...
A simulation scheme based on nonequilibrium Green's functions for biased periodic semiconductor hete...
An efficient method for simulating quantum transport in quantum cascade lasers is presented. The cal...
In this paper we present further details of a predictive Keldysh nonequilibrium many body Green's fu...
Current response and gain spectrum of a terahertz quantum cascade laser is analyzed at different tem...
A many-body theory based on nonequilibrium Green functions, in which transport and optics are treate...
We study the operation of an 8.5 µm quantum cascade laser based on GaInAs/AlInAs lattice matched to ...
The theory of nonequilibrium Green functions allows for a quantitative modeling of quantum cascade l...
This thesis adresses modeling of quantum cascade lasers using non-equilibrium Green’s functions. Foc...
Quantum cascade lasers can be modeled within a hierarchy of different approaches: Standard rate equa...
The gain profile of a quantum cascade laser is strongly influenced by the lifetime of the carriers i...
Nonequilibrium optical gain is computed for quantum cascade lasers. The Greens functions theory cons...
This paper complements recent results on the Nonequilibrium Green’s Functions simulations of Quantum...
The method of nonequilibrium Greens functions allows for a spatial and energetical resolution of the...
The complex interplay by tunneling and scattering in quantum cascade lasers is analyzed with nonequi...
The current State of the Art Nonequilibrium Keldysh Greens functions approaches to the calculation o...
A simulation scheme based on nonequilibrium Green's functions for biased periodic semiconductor hete...
An efficient method for simulating quantum transport in quantum cascade lasers is presented. The cal...
In this paper we present further details of a predictive Keldysh nonequilibrium many body Green's fu...
Current response and gain spectrum of a terahertz quantum cascade laser is analyzed at different tem...
A many-body theory based on nonequilibrium Green functions, in which transport and optics are treate...
We study the operation of an 8.5 µm quantum cascade laser based on GaInAs/AlInAs lattice matched to ...
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