Orthonormal and periodic levels for Quantum Cascade Laser simulation

Zakaria Mohamed; D. Ekin \"Onder; and Andreas Wacker

arXiv:2407.09358·cond-mat.mes-hall·September 5, 2024

Orthonormal and periodic levels for Quantum Cascade Laser simulation

Zakaria Mohamed, D. Ekin \"Onder, and Andreas Wacker

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TL;DR

This paper introduces a Python package for simulating Quantum Cascade Lasers by calculating various energy and location levels, emphasizing the orthonormality and periodicity of the states.

Contribution

It provides a detailed theoretical foundation and a computational tool for accurately evaluating laser states with focus on orthonormality and periodicity.

Findings

01

Successful implementation of the Python package for laser level evaluation

02

Accurate modeling of Wannier, Wannier-Stark, and EZ levels

03

Enhanced understanding of state orthonormality and periodicity

Abstract

A Python package to evaluate Wannier, Wannier-Stark, and EZ (both Energy and location Z resolved) levels for Quantum Cascade Lasers is presented. We provide the underlying theory in detail with a focus on the orthonormality and periodicity of the generated states.

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Taxonomy

TopicsLaser Design and Applications · Semiconductor Lasers and Optical Devices · Spectroscopy and Laser Applications