Many materials engineers overlook "Solid State Physics" by J. S. Blakemore. While older (1985), its treatment of defects, junctions, and measurement techniques is unmatched for practical engineers. Legitimate copies are rare, but scanned PDFs exist in engineering library archives.
The defining characteristic of most engineering materials (metals, ceramics, and semiconductors) is crystallinity. Solid state physics begins with the study of . Many materials engineers overlook "Solid State Physics" by J
6. Free Electron Model – Drude conductivity, Hall effect, screening. 7. Nearly Free Electron & Bloch’s Theorem – Bandgaps, effective mass, holes. 8. Band Engineering for Semiconductors – Doping, heterojunctions, quantum wells. While older (1985), its treatment of defects, junctions,
This is arguably the most critical chapter for any materials engineer. It explains how electrons move (or don't move) through a solid. Solid state physics begins with the study of
The study typically moves from structural foundations to the electronic and thermal behaviors that define material utility.
Built entirely on the physics of band gaps and P-N junctions.
: Unlike traditional physics-heavy texts, it provides an accessible framework specifically for materials engineers. Modern Materials Coverage