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NTRODUCTORY SOLID STATE PHYSICS WITH MATLAB APPLICATIONS
Título:
NTRODUCTORY SOLID STATE PHYSICS WITH MATLAB APPLICATIONS
Subtítulo:
Autor:
HASBUN, J
Editorial:
CRC PRESS
Año de edición:
2019
Materia
MATLAB
ISBN:
978-1-4665-1230-6
Páginas:
550
93,60 €

 

Sinopsis

Solid state physics, the study and prediction of the fundamental physical properties of materials, forms the backbone of modern materials science and has many technological applications. The unique feature of this text is the MATLAB®-based computational approach with several numerical techniques and simulation methods included. This is highly effective in addressing the need for visualization and a direct hands-on approach in learning the theoretical concepts of solid state physics. The code is freely available to all textbook users.

Additional Features:

Uses the pedagogical tools of computational physics that have become important in enhancing physics teaching of advanced subjects such as solid state physics
Adds visualization and simulation to the subject in a way that enables students to participate actively in a hand-on approach
Covers the basic concepts of solid state physics and provides students with a deeper understanding of the subject matter
Provides unique example exercises throughout the text
Obtains mathematical analytical solutions
Carries out illustrations of important formulae results using programming scripts that students can run on their own and reproduce graphs and/or simulations
Helps students visualize solid state processes and apply certain numerical techniques using MATLAB®, making the process of learning solid state physics much more effective
Reinforces the examples discussed within the chapters through the use of end-of-chapter exercises
Includes simple analytical and numerical examples to more challenging ones, as well as computational problems with the opportunity to run codes, create new ones, or modify existing ones to solve problems or reproduce certain results

Table of Contents

1 Introduction
2 The Reciprocal Lattice
3 Crystal Binding
4 Lattice Vibrations
5 Free Electron Gas
6 Introduction to Electronic Energy Bands
7 Semiconductor Crystal Properties
8 Simple Band Structure Calculations
9 Impurities and Disordered Systems
10 Magnetism I
11 Magnetism II
12 Superconductivity
13 Optical Properties of Solids
14 Transport Properties of Solids
Appendix A: MATLAB TUTORIAL
Appendix B: Distribution Functions
Bibliography
Index