Authors:
- Helps in a compact form to reach good understanding of quantum physics
- Shows important analogies between problems across different disciplines
- Concise and accurate, written in a readable and lively style
- Concentrates on the simplest quantum system which still displays the basic features of quantum theory
- Chapters end with a general outlook on multi-level systems
- Results are applied to a multitude of topics in modern science, from particle physics and quantum optics to time standards and magnetic resonance imaging
- Includes supplementary material: sn.pub/extras
Part of the book series: Graduate Texts in Physics (GTP)
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Table of contents (22 chapters)
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Front Matter
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Prologue
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Front Matter
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Two-State Quantum Systems
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Front Matter
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Multilevel Systems and Tensor Operators
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Front Matter
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About this book
This concise tutorial provides the bachelor student and the practitioner with a short text on quantum physics that allows them to understand a wealth of quantum phenomena based on a compact, well readable, yet still concise and accurate description of nonrelativistic quantum theory. This “quadrature of the circle” is achieved by concentrating first on the simplest quantum system that still displays all basic features of quantum theory, namely, a system with only two quantized energy levels. For most readers it is very helpful to understand such simple systems before slowly proceeding to more demanding topics like particle entanglement, quantum chaos, or the use of irreducible tensors. This tutorial does not intend to replace the standard textbooks on quantum mechanics, but will help the average student to understand them, often for the first time.
Keywords
- Dirk Dubbers textbook
- Magnetic resonance imaging
- Multi-level systems
- Quantum optics
- Quantum physics
- Quantum physics applied to magnetic resonance imaging
- Quantum physics of time standards
- Quantum physics of particles
- Quantum physics of particles and nuclei
- Quantum states
- Quantum theory
- Simple quantum system
- Tutorial quantum physics
Authors and Affiliations
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Fak. Physik und Astronomie, Physikalisches Institut, Universität Heidelberg, Heidelberg, Germany
Dirk Dubbers
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, Fachbereich Physik, Philipps-Universität Marburg, Marburg, Germany
Hans-Jürgen Stöckmann
About the authors
Dirk Dubbers, born 1943 in Dresden/Germany, studied physics at Göttingen and Heidelberg (doctorate and habilitation at Heidelberg University). This was followed by several long-term stays at the European neutron facility Institut Laue-Langevin at Grenoble, France, among them as Director of ILL. He held several professorships at Technical University Munich and Heidelberg University. In 1991 Dirk Dubbers has received the Stern-Gerlach Award of the German Physical Society. The former Dean of Physics Department and former Director of the Physics Institute of Heidelberg University is also a honorary doctor of Vienna University of Technology.
H.-J. Stöckmann, born 1945 in Göttingen/Germany, studied physics at the university of Heidelberg where he obtained his PhD in 1972 and the degree of habilitation in 1978. Since 1979 he is professor of experimental physics at the university of Marburg, where he developed the microwave techniques to study experimentally the quantum-mechanical properties of chaotic and disordered systems. He is author of an introductory monograph on quantum chaos.
Bibliographic Information
Book Title: Quantum Physics: The Bottom-Up Approach
Book Subtitle: From the Simple Two-Level System to Irreducible Representations
Authors: Dirk Dubbers, Hans-Jürgen Stöckmann
Series Title: Graduate Texts in Physics
DOI: https://doi.org/10.1007/978-3-642-31060-7
Publisher: Springer Berlin, Heidelberg
eBook Packages: Physics and Astronomy, Physics and Astronomy (R0)
Copyright Information: Springer-Verlag Berlin Heidelberg 2013
Hardcover ISBN: 978-3-642-31059-1Published: 10 January 2013
Softcover ISBN: 978-3-642-42702-2Published: 24 June 2015
eBook ISBN: 978-3-642-31060-7Published: 11 January 2013
Series ISSN: 1868-4513
Series E-ISSN: 1868-4521
Edition Number: 1
Number of Pages: XIII, 266
Topics: Quantum Physics, Mathematical Methods in Physics, Classical Mechanics