We study the operation of an 8.5 µm quantum cascade laser based on GaInAs/AlInAs lattice matched to InP using three different simulation models based on density matrix (DM) and nonequilibrium Green's function (NEGF) formulations. The latter advanced scheme serves as a validation for the simpler DM schemes and, at the same time, provides additional insight, such as the temperatures of the sub-band carrier distributions. We find that for the particular quantum cascade laser studied here, the behavior is well described by simple quantum mechanical estimates based on Fermi's golden rule. As a consequence, the DM model, which includes second order currents, agrees well with the NEGF results. Both these simulations are in accordance with previous...
Quantum cascade lasers can be modeled within a hierarchy of different approaches: Standard rate equa...
We present a quantum transport simulation of a 4.6- μ m quantum cascade laser (QCL) operating at...
We present a quantum transport simulation of a 4.6- μ m quantum cascade laser (QCL) operating at...
We study the operation of an 8.5 mu m quantum cascade laser based on GaInAs/AlInAs lattice matched t...
This paper complements recent results on the Nonequilibrium Green’s Functions simulations of Quantum...
This thesis adresses modeling of quantum cascade lasers using non-equilibrium Green’s functions. Foc...
A common setback to electron transport models for quantum cascade laser active regions is the inabil...
The quantum cascade laser (QCL) is a semiconductor heterostruc- ture using inter sub-band transition...
A transport model for quantum cascade lasers based on density matrix formalism that incorporates the...
The theory of nonequilibrium Green functions allows for a quantitative modeling of quantum cascade l...
The theory of nonequilibrium Green functions allows for a quantitative modeling of quantum cascade l...
The gain profile of a quantum cascade laser is strongly influenced by the lifetime of the carriers i...
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...
Quantum cascade lasers are unipolar semiconductor lasers covering a wide range of the infrared and t...
Quantum cascade lasers can be modeled within a hierarchy of different approaches: Standard rate equa...
We present a quantum transport simulation of a 4.6- μ m quantum cascade laser (QCL) operating at...
We present a quantum transport simulation of a 4.6- μ m quantum cascade laser (QCL) operating at...
We study the operation of an 8.5 mu m quantum cascade laser based on GaInAs/AlInAs lattice matched t...
This paper complements recent results on the Nonequilibrium Green’s Functions simulations of Quantum...
This thesis adresses modeling of quantum cascade lasers using non-equilibrium Green’s functions. Foc...
A common setback to electron transport models for quantum cascade laser active regions is the inabil...
The quantum cascade laser (QCL) is a semiconductor heterostruc- ture using inter sub-band transition...
A transport model for quantum cascade lasers based on density matrix formalism that incorporates the...
The theory of nonequilibrium Green functions allows for a quantitative modeling of quantum cascade l...
The theory of nonequilibrium Green functions allows for a quantitative modeling of quantum cascade l...
The gain profile of a quantum cascade laser is strongly influenced by the lifetime of the carriers i...
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...
Quantum cascade lasers are unipolar semiconductor lasers covering a wide range of the infrared and t...
Quantum cascade lasers can be modeled within a hierarchy of different approaches: Standard rate equa...
We present a quantum transport simulation of a 4.6- μ m quantum cascade laser (QCL) operating at...
We present a quantum transport simulation of a 4.6- μ m quantum cascade laser (QCL) operating at...