Bose Condensation and Lasing in Optical Microstructures - Part 2

TL;DR

This paper develops a numerical method to analyze excitonic properties and lasing in various shaped quantum wires, advancing understanding of excitonic lasing in microstructured optical devices.

Contribution

It introduces a general numerical approach for modeling excitonic properties in diverse quantum wire geometries, enabling detailed studies of excitonic lasing.

Findings

Numerical method applicable to various wire shapes and materials

Analysis of excitonic properties in T-shaped quantum wires

Insights into excitonic lasing mechanisms in microstructures

Abstract

The second part of this thesis is concerned with properties of excitons and modelling of excitonic lasing in quasi-one-dimensional quantum wires. I develop a very general numerical method of calculating the properties of wires with different shapes and materials. Using this method I study the properties of very wide range of T-shaped quantum wires.