Add to ORKGA density matrix based method is introduced for computation of steady-state dynamics in quantum cascade systems of arbitrary size, which incorporates an optical field coherently. The method is applied to a model terahertz quantum dot cascade laser system, where a means of treating coherent electron-optical-phonon coupling is also introduced. Results predict a strong increase in the upper state lifetime and operating temperature as compared to traditional well-based terahertz quantum cascade lasers. However, new complications also arise, including multiple peaks in the gain spectrum due to strong electron-phonon coupling, and strong parasitic subthreshold current channels that arise due to reduced dephasing. It is anticipated that novel desi...
In this paper we investigate, both theoretically and experimentally, nonequilibrium electron and pho...
A hybrid Monte Carlo-density matrix transport simulator is used to analyze the transport properties ...
The most advanced microscopic treatments of optoelectronic quantum devices are reviewed, with specia...
A common setback to electron transport models for quantum cascade laser active regions is the inabil...
The development of quantum dot cascade lasers has been proposed as a path to obtain terahertz semico...
Intersubband semiconductor-Bloch equations are investigated by incorporating many-body Coulomb inter...
In this work we present a density matrix model which considers an infinite quantum cascade laser (QC...
In this work we present a density matrix model which considers an infinite quantum cascade laser (QC...
The effects of many-body coulomb interaction and non-parabolicity on optical gain of terahertz quant...
The effects of many-body coulomb interaction and non-parabolicity on optical gain of terahertz quant...
In this paper we investigate, both theoretically and experimentally, nonequilibrium electron and pho...
In this paper we investigate, both theoretically and experimentally, nonequilibrium electron and pho...
A hybrid Monte Carlo-density matrix transport simulator is used to analyze the transport properties ...
The portion of the electromagnetic spectrum between roughly 300 GHz and 10 THz is nicknamed the "THz...
In this paper we investigate, both theoretically and experimentally, nonequilibrium electron and pho...
In this paper we investigate, both theoretically and experimentally, nonequilibrium electron and pho...
A hybrid Monte Carlo-density matrix transport simulator is used to analyze the transport properties ...
The most advanced microscopic treatments of optoelectronic quantum devices are reviewed, with specia...
A common setback to electron transport models for quantum cascade laser active regions is the inabil...
The development of quantum dot cascade lasers has been proposed as a path to obtain terahertz semico...
Intersubband semiconductor-Bloch equations are investigated by incorporating many-body Coulomb inter...
In this work we present a density matrix model which considers an infinite quantum cascade laser (QC...
In this work we present a density matrix model which considers an infinite quantum cascade laser (QC...
The effects of many-body coulomb interaction and non-parabolicity on optical gain of terahertz quant...
The effects of many-body coulomb interaction and non-parabolicity on optical gain of terahertz quant...
In this paper we investigate, both theoretically and experimentally, nonequilibrium electron and pho...
In this paper we investigate, both theoretically and experimentally, nonequilibrium electron and pho...
A hybrid Monte Carlo-density matrix transport simulator is used to analyze the transport properties ...
The portion of the electromagnetic spectrum between roughly 300 GHz and 10 THz is nicknamed the "THz...
In this paper we investigate, both theoretically and experimentally, nonequilibrium electron and pho...
In this paper we investigate, both theoretically and experimentally, nonequilibrium electron and pho...
A hybrid Monte Carlo-density matrix transport simulator is used to analyze the transport properties ...
The most advanced microscopic treatments of optoelectronic quantum devices are reviewed, with specia...