Quantum mechanics for electrical engineers [electronic resource] / Isaak Mayergoyz.
By: Mayergoyz, I. D.
Material type: Computer filePublisher: Singapore : World Scientific Publishing Co. Pte Ltd., ©2017Description: 1 online resource (312 p.) : ill. (some col.).ISBN: 9789813146914.Subject(s): Quantum theory | Electronic booksDDC classification: 530.12 Online resources: Access to full text is restricted to subscribers. Summary: "The book is designed for a one-semester graduate course in quantum mechanics for electrical engineers. It can also be used for teaching quantum mechanics to graduate students in materials science and engineering departments as well as to applied physicists. The selection of topics in the book is based on their relevance to engineering applications. The book provides the theoretical foundation for graduate courses in quantum optics and lasers, semiconductor electronics, applied superconductivity and quantum computing. It covers (along with traditional subjects) the following topics: resonant and Josephson tunneling; Landau levels and their relation to the integer quantum Hall effect; effective mass Schrodinger equation and semi-classical transport; quantum transitions in two-level systems; Berry phase and Berry curvature; density matrix and optical Bloch equation for two-level systems; Wigner function and quantum transport; exchange interaction and spintronic."-- Publisher's website.Mode of access: World Wide Web.
System requirements: Adobe Acrobat Reader.
Title from web page (viewed December 7, 2018).
Includes bibliographical references (p. 295-296) and index.
"The book is designed for a one-semester graduate course in quantum mechanics for electrical engineers. It can also be used for teaching quantum mechanics to graduate students in materials science and engineering departments as well as to applied physicists. The selection of topics in the book is based on their relevance to engineering applications. The book provides the theoretical foundation for graduate courses in quantum optics and lasers, semiconductor electronics, applied superconductivity and quantum computing. It covers (along with traditional subjects) the following topics: resonant and Josephson tunneling; Landau levels and their relation to the integer quantum Hall effect; effective mass Schrodinger equation and semi-classical transport; quantum transitions in two-level systems; Berry phase and Berry curvature; density matrix and optical Bloch equation for two-level systems; Wigner function and quantum transport; exchange interaction and spintronic."-- Publisher's website.
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