Introductory Nanoelectronics
Physical Theory and Device Analysis
Description:... This introductory text develops the reader’s fundamental understanding of core principles and experimental aspects underlying the operation of nanoelectronic devices. The author makes a thorough and systematic presentation of electron transport in quantum-confined systems such as quantum dots, quantum wires, and quantum wells together with Landauer-Büttiker formalism and non-equilibrium Green’s function approach. The coverage encompasses nanofabrication techniques and characterization tools followed by a comprehensive exposition of nanoelectronic devices including resonant tunneling diodes, nanoscale MOSFETs, carbon nanotube FETs, high-electron-mobility transistors, single-electron transistors, and heterostructure optoelectronic devices. The writing throughout is simple and straightforward, with clearly drawn illustrations and extensive self-study exercises for each chapter.
- Introduces the basic concepts underlying the operation of nanoelectronic devices.
- Offers a broad overview of the field, including state-of-the-art developments.
- Covers the relevant quantum and solid-state physics and nanoelectronic device principles.
- Written in lucid language with accessible mathematical treatment.
- Includes extensive end-of-chapter exercises and many insightful diagrams.
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