Download Kireev Semiconductor Physics Pdf for Free: Learn the Fundamentals and Applications of Semiconductors
Kireev Semiconductor Physics Pdf: A Comprehensive Guide
If you are interested in learning about the fundamentals and applications of semiconductor physics, you may have come across a book called Semiconductor Physics by Petr Semenovič Kireev. This book is considered to be one of the classic texts on the subject, covering a wide range of topics from the electron theory of conductivity to the optical properties of semiconductors. In this article, we will give you a comprehensive guide on what this book is about, why it is important, and how you can access it online.
Kireev Semiconductor Physics Pdf
What is semiconductor physics?
Semiconductor physics is a branch of physics that studies the properties and behavior of materials that have electrical conductivity between that of a conductor and an insulator. Semiconductors are widely used in the fields of electronics, optoelectronics, nanotechnology, and renewable energy. Some examples of semiconductors are silicon, germanium, gallium arsenide, and cadmium telluride.
Who is Petr Semenovič Kireev?
Petr Semenovič Kireev (1919-1997) was a Soviet physicist and professor who specialized in semiconductor physics. He graduated from Moscow State University in 1941 and worked at the Institute of Physical Problems until 1956. He then became the head of the Department of Semiconductor Physics at Moscow Engineering Physics Institute, where he taught for over 40 years. He was also a member of the Academy of Sciences of the USSR and a recipient of several awards and honors for his scientific contributions.
Why is his book important?
Kireev's book Semiconductor Physics was first published in Russian in 1968 and then translated into English in 1978. It was one of the first comprehensive textbooks on semiconductor physics that covered both theoretical and experimental aspects. The book was widely used by students and researchers in the Soviet Union and abroad as a reference and a source of inspiration. The book has been praised for its clarity, rigor, depth, and breadth of coverage.
Main features of the book
Structure and content
The book consists of five parts, each containing several chapters. The parts are as follows:
Part 1: Electron Theory of Conductivity
This part introduces the basic concepts and laws of electron theory of conductivity, such as Ohm's law, mean free time, mean free path, distribution functions, electron distribution function, mean values of physical quantities, drift velocity, diffusion coefficient, mobility, relaxation time, conductivity tensor, Hall effect, thermoelectric phenomena, Wiedemann-Franz law, Seebeck effect, Peltier effect, Thomson effect.
Part 2: Band Theory of Solids
This part discusses the band theory of solids, which explains the origin of the energy bands and the band gaps in solids. It covers topics such as periodic potential, Bloch theorem, Brillouin zones, reciprocal lattice, crystal symmetry, band structure, effective mass, density of states, Fermi level, Fermi-Dirac distribution, intrinsic and extrinsic semiconductors, impurity levels, ionization energy, carrier concentration, degenerate and non-degenerate semiconductors.
Part 3: Transport Phenomena in Semiconductors
This part deals with the transport phenomena in semiconductors, which describe how charge carriers move under the influence of electric and magnetic fields. It covers topics such as Boltzmann equation, collision integrals, relaxation time approximation, transport equations, current density, conductivity, mobility, diffusion, Einstein relation, drift-diffusion equation, continuity equation, Poisson equation, space charge region, depletion layer, built-in potential, junction capacitance.
Part 4: Optical Properties of Semiconductors
This part explores the optical properties of semiconductors, which involve the interaction of light with matter. It covers topics such as absorption coefficient, absorption edge, direct and indirect transitions, excitons, luminescence, radiative and non-radiative recombination, emission spectrum, quantum efficiency, photoconductivity, photovoltaic effect, solar cells.
Part 5: Contact Phenomena and Devices
This part examines the contact phenomena and devices based on semiconductors, which are the basis of modern electronics and optoelectronics. It covers topics such as metal-semiconductor contacts, Schottky barrier, ohmic contact, rectifying contact, tunneling contact, metal-insulator-semiconductor contacts, field-effect transistors (FETs), bipolar junction transistors (BJTs), heterojunctions, light-emitting diodes (LEDs), lasers.
Examples and problems
The book contains numerous examples and problems that illustrate and test the understanding of the concepts and principles presented in the text. The examples are solved in detail and show the application of the theory to practical situations. The problems are given at the end of each chapter and range from simple to challenging. The solutions to some of the problems are given in the appendix.
Illustrations and tables
The book is richly illustrated with figures and diagrams that help visualize and explain the phenomena and processes discussed in the text. The figures are clear and informative and often include experimental data and graphs. The book also contains several tables that summarize and compare the properties and parameters of various materials and devices.
How to access the book online
One of the easiest ways to access the book online is through Google Books. Google Books is a service that allows you to search and preview millions of books from libraries and publishers worldwide. You can find the book by typing "Kireev Semiconductor Physics" in the search box or by following this link: https://books.google.com/books/about/Semiconductor_Physics.html?id=SRxRAAAAMAAJ. You can view some pages of the book for free or buy the full version as an ebook or a print copy.
Another way to access the book online is through PDF Drive. PDF Drive is a free search engine that lets you find and download PDF files of books and documents. You can find the book by typing "Kireev Semiconductor Physics" in the search box or by following this link: