Overview

Simulations play an increasingly important role not only in scientific research but also in engineering developments. Introduction to Simulations of Semiconductor Lasers introduces senior undergraduates to the design of semiconductor lasers and their simulations. The book begins with explaining the physics and fundamental characteristics behind semiconductor lasers and their applications. It presumes little prior knowledge, such that only a familiarity with the basics of electromagnetism and quantum mechanics is required. The book transitions from textbook explanations, equations, and formulas to ready-to-run numeric codes that enable the visualization of concepts and simulation studies. Multiple chapters are supported by MATLAB code which can be accessed by the students. These are ready-to-run, but they can be modified to simulate other structures if desired. Providing a unified treatment of the fundamental principles and physics of semiconductors and semiconductor lasers, Introduction to Simulations of Semiconductor Lasers is an accessible, practical guide for advanced undergraduate students of Physics, particularly for courses in laser physics. Key Features: A unified treatment of fundamental principles Explanations of the fundamental physics of semiconductor Explanations of the operation of semiconductor lasers An historical overview of the subject

Full Product Details

Author:   Marek Wartak
Publisher:   Taylor & Francis Ltd
Imprint:   CRC Press
Weight:   0.670kg
ISBN:  

9781032209050

ISBN 10:   1032209054
Pages:   350
Publication Date:   28 November 2025
Audience:   College/higher education ,  Tertiary & Higher Education
Format:   Paperback
Publisher's Status:   Forthcoming
Availability:   Not yet available  
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Table of Contents

Chapter 1: Introduction. Chapter 2: Fundamentals of semiconductors. Chapter 3: Semiconductor transport equations and contacts. Chapter 4: p-n junctions. Chapter 5: Electrical processes. Chapter 6: Poisson equation. Chapter 7: Experiments using Poisson equation. Homo diode. Chapter 8: Hetero-junction using Poisson equation. Chapter 9: Homo-diode based on drift-diffusion. Chapter 10: Matlab code for P-N homo-diode. Chapter 11: Hetero-diode based on drift-diffusion. Chapter 12: Multi-layer passive slab waveguides. Chapter 13: Optical parameters and processes. Chapter 14: Semiconductor laser. Chapter 15: Conclusions. Chapter 16: Appendix. Material parameters. Chapter 17: Appendix.Short history of semiconductor laser simulations. Bibliography. Index.

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Author Information

Marek S.Wartak is a Professor in the Department of Physics and Computer Science at Wilfrid Laurier University, Waterloo, Ontario. He has over 30 years of experience in semiconductor physics, photonics and optoelectronics, analytical methods, modelling and computer-aided design tools.

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