Quantum Mechanics in Nanoscience and Engineering

Uri Peskin (Technion - Israel Institute of Technology, Haifa)

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Hardback

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English

Cambridge University Press
01 June 2023

Quantum physics (quantum mechanics & quantum field theory); Nanotechnology; Materials science; Electrical engineering

Quantum Mechanics in Nanoscience and Engineering covers both elementary and advanced quantum mechanics within a coherent and self-contained framework. Undergraduate students of physics, chemistry and engineering will find comprehensive coverage of their introductory quantum mechanics courses, and graduate students will gain an understanding of additional tools and concepts necessary to describe real world phenomena. Each topic presented is first motivated by an experimental technique, phenomenon or concept derived directly from the realm of nanoscience and technology. The machinery of quantum mechanics is described and reinforced through the perspective of nanoscale phenomena, and in this manner practical and fundamental questions are raised and answered. The main text remains fluent and accessible by leaving technical details and mathematical proofs to guided exercises. Introductory readers may overlook these exercises, while rigorous students can benefit from reading the guidance or solving the exercises in full to strengthen and consolidate their understanding of the material.

By: Uri Peskin (Technion - Israel Institute of Technology Haifa)
Imprint: Cambridge University Press
Country of Publication: United Kingdom
Edition: New edition
Dimensions: Height: 260mm, Width: 182mm, Spine: 27mm
Weight: 1.130kg
ISBN: 9781108834902
ISBN 10: 1108834906
Pages: 450
Publication Date: 01 June 2023
Audience: College/higher education , A / AS level
Format: Hardback
Publisher's Status: Active

Preface. 1. Motivation; 2. The state of a system; 3. Observables and operators; 4. The Schrödinger equation; 5. Energy quantization; 6. Wave function penetration, tunneling and quantum wells; 7. The continuous spectrum and scattering states; 8. Mechanical vibrations and the harmonic oscillator model; 9. Two-body rotation and angular momentum; 10. The hydrogen-like atom; 11. The postulates of quantum mechanics; 12. Approximation methods; 13. Many-electron systems; 14. Many-atom systems; 15. Quantum dynamics; 16. Incoherent states; 17. Quantum rate processes; 18. Thermal rates in a bosonic environment; 19. Open quantum systems; 20. Open Many-Fermion systems; Index.

Uri Peskin is Professor of Chemistry and a member of the Russell Berrie Nanotechnology Institute and the Helen Diller Quantum Center at Technion – Israel Institute of Technology. His expertise lies in atomic and molecular physics, and scientific computing, with emphasis on quantum dynamics on the nanoscale. He was a post-doctoral fellow at the University of California at Berkeley, and a visiting professor at Harvard and Freiburg universities. His research and teaching of quantum mechanics won him several awards, including the Yanai Prize for Excellence in Academic Education.

Reviews for Quantum Mechanics in Nanoscience and Engineering

'As quantum effects increasingly take centre stage in chemistry, physics and materials research, it is important for researchers to have deep physical and mathematical understanding of quantum mechanics. This is a textbook for our times, with very clear explanations of both fundamental concepts and detailed extensions to a range of applications. Whether your scientific journey is from physics towards molecular sciences, from chemistry towards non-equilibrium physics, across the broad spectrum of activities that encompass nano-science or something in between, I am sure this book will be a welcome companion for your adventures.' Gemma C. Solomon, University of Copenhagen 'With its focus on real-world phenomena at the smallest scales, this truly interdisciplinary book opens the eyes of the reader to the significance of quantum theory in the natural sciences and beyond. With its many instructive illustrations and exercises the book serves as an introductory text for undergraduate students as well as a stepping stone for future practitioners at the forefront of present-day research on open and many-particle quantum systems. It also contains a lot of up-to-date material for any lecturer who wants to modernize their course.' Frank Grossmann, Technische Universitat Dresden