Theory of Group Representations and Applications

Theory of Group Representations and Applications
Author: Asim Orhan Barut
Publisher: World Scientific
Total Pages: 750
Release: 1986
Genre: Mathematics
ISBN: 9789971502171

Lie!algebras - Topological!groups - Lie!groups - Representations - Special!functions - Induced!representations.

Representations of *-Algebras, Locally Compact Groups, and Banach *-Algebraic Bundles

Representations of *-Algebras, Locally Compact Groups, and Banach *-Algebraic Bundles
Author: J. M.G. Fell
Publisher: Academic Press
Total Pages: 755
Release: 1988-05-01
Genre: Mathematics
ISBN: 0080874452

This is an all-encompassing and exhaustive exposition of the theory of infinite-dimensional Unitary Representations of Locally Compact Groups and its generalization to representations of Banach algebras. The presentation is detailed, accessible, and self-contained (except for some elementary knowledge in algebra, topology, and abstract measure theory). In the later chapters the reader is brought to the frontiers of present-day knowledge in the area of Mackey normal subgroup analysisand its generalization to the context of Banach *-Algebraic Bundles.

General Principles of Quantum Field Theory

General Principles of Quantum Field Theory
Author: N.N. Bogolubov
Publisher: Springer Science & Business Media
Total Pages: 714
Release: 2012-12-06
Genre: Science
ISBN: 9400904916

The majority of the "memorable" results of relativistic quantum theory were obtained within the framework of the local quantum field approach. The explanation of the basic principles of the local theory and its mathematical structure has left its mark on all modern activity in this area. Originally, the axiomatic approach arose from attempts to give a mathematical meaning to the quantum field theory of strong interactions (of Yukawa type). The fields in such a theory are realized by operators in Hilbert space with a positive Poincare-invariant scalar product. This "classical" part of the axiomatic approach attained its modern form as far back as the sixties. * It has retained its importance even to this day, in spite of the fact that nowadays the main prospects for the description of the electro-weak and strong interactions are in connection with the theory of gauge fields. In fact, from the point of view of the quark model, the theory of strong interactions of Wightman type was obtained by restricting attention to just the "physical" local operators (such as hadronic fields consisting of ''fundamental'' quark fields) acting in a Hilbert space of physical states. In principle, there are enough such "physical" fields for a description of hadronic physics, although this means that one must reject the traditional local Lagrangian formalism. (The connection is restored in the approximation of low-energy "phe nomenological" Lagrangians.

Introduction to the Theory of Heavy-Ion Collisions

Introduction to the Theory of Heavy-Ion Collisions
Author: W. Nörenberg
Publisher: Springer
Total Pages: 286
Release: 2013-11-11
Genre: Science
ISBN: 3540382712

With the advent of heavy-ion reactions, nuclear physics has acquired a new frontier. The new heavy-ion sources operating at electrostatic accelerators and the high-energy experiments performed at Berkeley, Dubna, Manchester and Orsay, have opened up the field, and have shown us impressive new prospects. The new accelerators now under construction at Berlin, Daresbury and Darmstadt, as well as those under consideration (GANIL, Oak Ridge, etc. ) are expected to add significantly to our knowledge and understanding of nuclear properties. This applies not only to such exotic topics as the existence and lifetimes of superheavy elements, or the possibil ity of shock waves in nuclei, but also to such more mundane issues as high-spin states, new regions of deformed nuclei and friction forces. The field promises not only to produce a rich variety of interesting phenomena, but also to have wide-spread theoretical implications. Heavy-ion reactions are characterized by the large masses of the fragments, as well as the high total energy and the large total angular momentum typically involved in the collision. A purely quantum-mechanical description of such a collision process may be too complicated to be either possible or inter esting. We expect and, in some cases,know that the classical limit, the limit of geometrical optics, a quantum-statistical or a hydrodynamical description correctly account for typical features.