The is a massive, nearly 1,700-page reference work published in late 2022 that serves as a definitive guide for professionals, material scientists, and electrical engineers. Edited by Massimo Rudan, Rossella Brunetti, and Susanna Reggiani, it features contributions from approximately 100 leading international scientists across academia and industry. Core Content Structure
: Illustrates numerical simulation methods ranging from fabrication process modeling to device performance, including drift-diffusion and quantum ballistic models. Technical Highlights
The handbook is organized into four primary sections to provide a complete overview of the field: Springer Handbook of Semiconductor Devices (Spr...
: The text bridges the gap between theoretical background and practical applications, including the extraction of performance characteristics using standard laboratory equipment.
: Each of the 45 chapters is designed to be read independently, allowing specialists to find specific information quickly without needing to read the entire volume. The is a massive, nearly 1,700-page reference work
: Explores scaling issues and novel concepts such as nanotube/nanoribbon field-effect transistors, phase-change memory, and spin-transfer devices.
: The physical handbook contains over 1,300 illustrations , many of which are in color, to aid in understanding complex structures and simulation data. Where to Access Springer Handbook of Semiconductor Devices Technical Highlights The handbook is organized into four
: Details fabrication steps, material description, and isolation schemes (e.g., junction and deep trench isolation).