Physical Principles of Microelectronics by G. Yepifanov is a detailed and authoritative textbook that explores the fundamental physical concepts underlying microelectronic devices and systems. Written by a distinguished Soviet physicist, this classic text offers a rigorous and comprehensive explanation of the electronic, optical, and solid-state principles that form the foundation of modern microelectronics.

The book provides an in-depth study of semiconductor physics, including energy bands, charge carriers, junction phenomena, and transport mechanisms, and extends to the operation of transistors, diodes, integrated circuits, and microelectronic components. Yepifanov blends theoretical analysis with engineering insight, demonstrating how fundamental physical laws translate into the design and performance of real-world devices.

Particularly valuable for students and professionals in electronics, electrical engineering, and applied physics, this textbook emphasizes the relationship between material properties and device behavior, covering topics such as semiconductor doping, charge mobility, p–n junctions, field-effect transistors, and microfabrication principles.

With its precise explanations, mathematical rigor, and didactic clarity, Physical Principles of Microelectronics continues to be a benchmark reference for understanding how physics drives the miniaturization and advancement of electronic technology.

PUBLISHER: MIR PUBLISHERS MOSCOW

BINDING: HARD COVER

LANGUAGE: ENGLISH

PAGES: 317