Due to their intuitiveness, flexibility, and relative numerical efficiency, the macroscopic
Maxwell–Bloch (MB) equations are a widely used semiclassical and semi …

Abstract The Maxwell–Lindblad transmission line (MLT) equations are introduced as a
model for hybrid photonic and microwave‐electronic quantum devices. The hybrid concept …

The concept of tunneling injection was introduced in the 1990's to improve the dynamical
properties of semiconductor lasers by avoiding the problem of hot carrier injection which …

In this paper, we investigate with numerical simulations the rich multimode dynamics of
quantum dot Fabry-Perot lasers. We have used a time-domain traveling-wave approach …

We present a data-driven approach to efficiently approximate nonlinear transient dynamics
in solid-state systems. Our proposed machine-learning model combines a dimensionality …

We report direct observations of Rabi oscillations and self-induced transparency in a
quantum dot optical amplifier operating at room temperature. The experiments make use of …

Using quantum dot (QD) structures as active material for optoelectronics was already in
focus before the development of quantum well (QW) lasers and before semiconductor lasers …

In this work, numerical solution to a general electromagnetic (EM) system is studied using a
formalism based on the formulas for the E–B–A–formulas with different gauge conditions …

The process of tunneling injection is known to improve the dynamical characteristics of
quantum well and quantum dot lasers; in the latter, it also improves the temperature …

Active metamaterials, ie, coupled systems consist of metamaterials and active or gain media.
Modelling the interaction between unconventional electromagnetic response in …