Эта книга знакомит нас с основным содержанием курса квантовой механики для электротехнических инженеров. В ней подробно рассмотрены основные математические формулы и их применение в электронике и оптике. Для более точного понимания данных формул и концепций, автор использовал приложения. Книга будет полезна любому студенту электротехники , а также тем, кто хочет понять непонятные для него моменты.
Presented by Peter Deák.
You don't need to know what quantum mechanics is to appreciate this book, Peter Deák writes specifically for undergraduate electrical engineering students. Although the basics of quantum theory are presented without compromise, easy-to-follow calculations with clear explanations take place throughout. And appendices summarizing classical physics and mathematical prerequisites familiarize your with the necessary groundwork for the material in this journey through quantum mechanic theory. The choice of selected applications is neat, including light technology, lasers and the quantum revolution of information storage - all the topics that today's engineers must deal with. Part of my broad self-directed learning classwork in computer simulation, this book proves indispensable for envisioning the intriguing perspectives of the ongoing quantum engineering revolution.
Электронная Книга «Essential Quantum Mechanics for Electrical Engineers» написана автором Peter Deák в году.
Минимальный возраст читателя: 0
Язык: Английский
ISBN: 9783527805815
Описание книги от Peter Deák
Quantum mechanics (QM) is latently present in the life of electrical engineers already, since the hardware of todays information technology – from electrical data processing, through interconversion of electronic and optical information, to data storage and visualization – works on QM principles. New developments in micro- and opto-electronics and the advent of quantum information processing will soon make the active understanding of QM unavoidable for engineers, too. Unfortunately, the principles of QM can only be formulated mathematically, so even introductory books on the subject are mostly rather abstract. This book, written mainly for BSc students, tries to help the reader by showing «QM in action», demonstrating its surprising effects directly in applications, like lighting technology, lasers, photo- and solar cells, flash memories and quantum bits. While the axioms and basic concepts of quantum mechanics are introduced without compromises, the math is kept at a level which is required from electrical engineers anyhow. Computational work is spared by the use of Applets which also visualize the results. Among the host of other didactic features are learning objectives, chapter summaries, self-testing questions, and problems with solutions, while two appendices summarize the knowledge in classical physics and mathematics which is needed for this book.
