Statistical Physics for Electrical Engineering

  • Neri Merhav

Table of contents

About this book


The main body of this book is devoted to statistical physics, whereas much less emphasis is given to thermodynamics. In particular, the idea is to present the most important outcomes of thermodynamics – most notably, the laws of thermodynamics – as conclusions from derivations in statistical physics.
Special emphasis is on subjects that are vital to engineering education. These include, first of all, quantum statistics, like the Fermi-Dirac distribution, as well as diffusion processes, both of which are fundamental to a sound understanding of semiconductor devices. Another important issue for electrical engineering students is understanding of the mechanisms of noise generation and stochastic dynamics in physical systems, most notably in electric circuitry. Accordingly, the fluctuation-dissipation theorem of statistical mechanics, which is the theoretical basis for understanding thermal noise processes in systems, is presented from a signals-and-systems point of view, in a way that is readily accessible for engineering students and in relation with other courses in the electrical engineering curriculum, like courses on random processes.


Mechanisms of noise generation Stochastic dynamics in electric circuitry Statistical mechanics Thermal noise Information theory Kinetic theory of gases thermodynamic potentials

Authors and affiliations

  • Neri Merhav
    • 1
  1. 1.Department of Electrical EngineeringIsrael Institute of Technology Department of Electrical EngineeringTechnion City, HaifaIsrael

Bibliographic information