Modern Quantum Mechanics and Quantum Information surveys the fundamental aspects of quantum mechanics against the backdrop of its use in modern science applications. The book covers several topics in modern quantum mechanics and quantum information that do not appear in older texts. These include a mathematically sound treatment of delta functions and the rigged Hilbert space, an exposition of many-body theory including density functional theory and Feynman diagrams, and an explanation of chemical bonds and energy band theory. It also contains expansive chapters on relativistic Dirac theory, group theory including Lie groups, exotic quantum phenomena, interpretations of quantum theory, quantum computers and quantum cryptography. Each chapter ends with a set of questions and exercises for the student. This authoritative and expansive survey of the field is ideal for advanced researchers, upper undergraduate and graduate students, with a main purpose as a text for a graduate course in quantum mechanics.
Key Features:
Provides a thorough review of the basics
Discusses the philosophical questions of quantum theory
Includes the concepts used in quantum condensed matter physics and quantum chemistry in detail
Presents quantum information
Discusses the density functional and the diagrammatic approaches to many-body theory
Inhaltsverzeichnis
Chapter 1 – Review of Basics
Chapter 2 – Non-relativistic Quantum Mechanics
Chapter 3 – Relativistic quantum mechanics`
Chapter 4 – Symmetry
Chapter 5 – Approximate Methods
Chapter 6 – Scattering and Green’s Functions
Chapter 7 – A Practical Tool
Chapter 8 – An Alternative Reality
Chapter 9 – What Does It All Mean
Chapter 10 – Quantum Information
Chapter 11- Quantum Cryptography
Chapter 12 – Many Particle Systems
Über den Autor
Professor John Samuel Faulkner obtained his Ph D in physics from The Ohio State University, and is currently professor emeritus of Florida Atlantic University. Professor Faulkner FAPS, FAAAS, has numerous publications in professional journals and has published the book Multiple Scattering Theory: Electronic Structure of Solids.