Relativistic Quantum Mechanics
An Introduction to Relativistic Quantum Fields
Author(s)
Maiani, Luciano
Benhar, Omar
Collection
SCOAP3 for BooksLanguage
EnglishAbstract
Written by two of the most prominent leaders in particle physics, Relativistic Quantum Mechanics: An Introduction to Relativistic Quantum Fields provides a classroom-tested introduction to the formal and conceptual foundations of quantum field theory. Designed for advanced undergraduate- and graduate-level physics students, the text only requires previous courses in classical mechanics, relativity, and quantum mechanics. The introductory chapters of the book summarise the theory of special relativity and its application to the classical description of the motion of a free particle and a field. The authors then explain the quantum formulation of field theory through the simple example of a scalar field described by the Klein–Gordon equation as well as its extension to the case of spin ½ particles described by the Dirac equation. They also present the elements necessary for constructing the foundational theories of the standard model of electroweak interactions, namely quantum electrodynamics and the Fermi theory of neutron beta decay. Many applications to quantum electrodynamics and weak interaction processes are thoroughly analysed. The book also explores the timely topic of neutrino oscillations. Logically progressing from the fundamentals to recent discoveries, this textbook provides students with the essential foundation to study more advanced theoretical physics and elementary particle physics. It will help them understand the theory of electroweak interactions and gauge theories. View the second and third books in this collection: Electroweak Interactions and An Introduction to Gauge Theories. Key Features of the new edition: Besides a general revision of text and formulae, three new chapters have been added. · Chapter 17 introduces and discusses double beta decay processes with and without neutrino emission, the latter being the only process able to determine the Dirac or Majorana nature of the neutrino (discussed in Chapter 13). A discussion of the limits to the Majorana neutrino mass obtained recently in several underground laboratories is included. · Chapter 18 illustrates the calculation of the mass spectrum of “quarkonia” (mesons composed by a pair of heavy, charm or beauty quarks), in analogy with the positronium spectrum discussed in Chapter 12. This calculation has put into evidence the existence of “unexpected” states and has led to the new field of “exotic hadrons”, presently under active theoretical and experimental scrutiny. · Chapter 19 illustrates the Born-Oppenheimer approximation, extensively used in the computation of simple molecules, and its application to the physics of exotic hadrons containing a pair of heavy quarks, with application to the recently observed doubly charmed baryons. This eBook was published Open Access with funding support from the Sponsoring Consortium for Open Access Publishing in Particle Physics (SCOAP3). A PDF version of this book is available for free in Open Access at www.taylorfrancis.com. It has been made available under a Creative Commons Attribution-Non Commercial-No Derivatives 4.0 license.
Keywords
quantum electrodynamics; Particle physics; neutrino oscillations; field theory textbook; relativistic perturbation theory; Electroweak interactions; gauge theories; Klein–Gordon equation; Dirac equation; Fermi theory of neutron beta decay; symmetry and conservation lawsDOI
10.1201/9781003436263ISBN
9781040085110, 9781032565941, 9781498722315, 9781003436263, 9781040085134, 9781040085110Publisher
Taylor & FrancisPublisher website
https://0-taylorandfrancis-com.catalogue.libraries.london.ac.uk/Publication date and place
2024Grantor
Imprint
CRC PressClassification
Atomic and molecular physics
Quantum physics (quantum mechanics and quantum field theory)
Particle and high-energy physics
Applied mathematics
Condensed matter physics (liquid state and solid state physics)