Quantum Mechanics in the Geometry of Space-Time
Quantum Mechanics in the Geometry of Space-Time

Author: Roger Boudet

Publisher: Springer Science & Business Media

Published: 2011-06-13

Total Pages: 126

ISBN-13: 3642191991

DOWNLOAD EBOOK

This book continues the fundamental work of Arnold Sommerfeld and David Hestenes formulating theoretical physics in terms of Minkowski space-time geometry. We see how the standard matrix version of the Dirac equation can be reformulated in terms of a real space-time algebra, thus revealing a geometric meaning for the “number i” in quantum mechanics. Next, it is examined in some detail how electroweak theory can be integrated into the Dirac theory and this way interpreted in terms of space-time geometry. Finally, some implications for quantum electrodynamics are considered. The presentation of real quantum electromagnetism is expressed in an addendum. The book covers both the use of the complex and the real languages and allows the reader acquainted with the first language to make a step by step translation to the second one.

Scale Relativity and Fractal Space-time
Scale Relativity and Fractal Space-time

Author: Laurent Nottale

Publisher: World Scientific

Published: 2011

Total Pages: 766

ISBN-13: 1848166508

DOWNLOAD EBOOK

This book provides a comprehensive survey of the state-of-the-art in the development of the theory of scale relativity and fractal space-time. It suggests an original solution to the disunified nature of the classical-quantum transition in physical systems, enabling quantum mechanics to be based on the principle of relativity provided this principle is extended to scale transformations of the reference system. In the framework of such a newly-generalized relativity theory (including position, orientation, motion and now scale transformations), the fundamental laws of physics may be given a general form that goes beyond and integrates the classical and the quantum regimes. A related concern of this book is the geometry of space-time, which is described as being fractal and nondifferentiable. It collects and organizes theoretical developments and applications in many fields, including physics, mathematics, astrophysics, cosmology and life sciences.

Spacetime and Geometry
Spacetime and Geometry

Author: Sean M. Carroll

Publisher: Cambridge University Press

Published: 2019-08-08

Total Pages: 529

ISBN-13: 1108488390

DOWNLOAD EBOOK

An accessible introductory textbook on general relativity, covering the theory's foundations, mathematical formalism and major applications.

Stochastic Quantum Mechanics and Quantum Spacetime
Stochastic Quantum Mechanics and Quantum Spacetime

Author: Eduard Prugovečki

Publisher: Springer Science & Business Media

Published: 1984-01-31

Total Pages: 334

ISBN-13: 9789027716170

DOWNLOAD EBOOK

The principal intent of this monograph is to present in a systematic and self-con tained fashion the basic tenets, ideas and results of a framework for the consistent unification of relativity and quantum theory based on a quantum concept of spacetime, and incorporating the basic principles of the theory of stochastic spaces in combination with those of Born's reciprocity theory. In this context, by the physicial consistency of the present framework we mean that the advocated approach to relativistic quantum theory relies on a consistent probabilistic interpretation, which is proven to be a direct extrapolation of the conventional interpretation of nonrelativistic quantum mechanics. The central issue here is that we can derive conserved and relativistically convariant probability currents, which are shown to merge into their nonrelativistic counterparts in the nonrelativistic limit, and which at the same time explain the physical and mathe matical reasons behind the basic fact that no probability currents that consistently describe pointlike particle localizability exist in conventional relativistic quantum mechanics. Thus, it is not that we dispense with the concept oflocality, but rather the advanced central thesis is that the classical concept of locality based on point like localizability is inconsistent in the realm of relativistic quantum theory, and should be replaced by a concept of quantum locality based on stochastically formulated systems of covariance and related to the aforementioned currents.

Geometry Of Time-spaces: Non-commutative Algebraic Geometry, Applied To Quantum Theory
Geometry Of Time-spaces: Non-commutative Algebraic Geometry, Applied To Quantum Theory

Author: Olav Arnfinn Laudal

Publisher: World Scientific

Published: 2011-03-21

Total Pages: 154

ISBN-13: 9814460702

DOWNLOAD EBOOK

This is a monograph about non-commutative algebraic geometry, and its application to physics. The main mathematical inputs are the non-commutative deformation theory, moduli theory of representations of associative algebras, a new non-commutative theory of phase spaces, and its canonical Dirac derivation. The book starts with a new definition of time, relative to which the set of mathematical velocities form a compact set, implying special and general relativity. With this model in mind, a general Quantum Theory is developed and shown to fit with the classical theory. In particular the “toy”-model used as example, contains, as part of the structure, the classical gauge groups u(1), su(2) and su(3), and therefore also the theory of spin and quarks, etc.

The Geometry of Spacetime
The Geometry of Spacetime

Author: James J. Callahan

Publisher: Springer Science & Business Media

Published: 2013-03-09

Total Pages: 474

ISBN-13: 1475767366

DOWNLOAD EBOOK

Hermann Minkowski recast special relativity as essentially a new geometric structure for spacetime. This book looks at the ideas of both Einstein and Minkowski, and then introduces the theory of frames, surfaces and intrinsic geometry, developing the main implications of Einstein's general relativity theory.

Spacetime Physics
Spacetime Physics

Author: Edwin F. Taylor

Publisher: Macmillan

Published: 1992-03-15

Total Pages: 324

ISBN-13: 9780716723271

DOWNLOAD EBOOK

This thoroughly up-to-date, highly accessible overview covers microgravity, collider accelerators, satellite probes, neutron detectors, radioastronomy, and pulsars.

Foundations of Quantum Gravity
Foundations of Quantum Gravity

Author: James Lindesay

Publisher: Cambridge University Press

Published: 2013-05-16

Total Pages: 419

ISBN-13: 1107328306

DOWNLOAD EBOOK

Exploring how the subtleties of quantum coherence can be consistently incorporated into Einstein's theory of gravitation, this book is ideal for researchers interested in the foundations of relativity and quantum physics. The book examines those properties of coherent gravitating systems that are most closely connected to experimental observations. Examples of consistent co-gravitating quantum systems whose overall effects upon the geometry are independent of the coherence state of each constituent are provided, and the properties of the trapping regions of non-singular black objects, black holes and a dynamic de Sitter cosmology are discussed analytically, numerically and diagrammatically. The extensive use of diagrams to summarise the results of the mathematics enables readers to bypass the need for a detailed understanding of the steps involved. Assuming some knowledge of quantum physics and relativity, the book provides text boxes featuring supplementary information for readers particularly interested in the philosophy and foundations of the physics.

Aspects of Quantum Field Theory in Curved Spacetime
Aspects of Quantum Field Theory in Curved Spacetime

Author: Stephen A. Fulling

Publisher: Cambridge University Press

Published: 1989-08-24

Total Pages: 332

ISBN-13: 9780521377683

DOWNLOAD EBOOK

The theory of quantum fields on curved spacetimes has attracted great attention since the discovery, by Stephen Hawking, of black-hole evaporation. It remains an important subject for the understanding of such contemporary topics as inflationary cosmology, quantum gravity and superstring theory. This book provides, for mathematicians, an introduction to this field of physics in a language and from a viewpoint which such a reader should find congenial. Physicists should also gain from reading this book a sound grasp of various aspects of the theory, some of which have not been particularly emphasised in the existing review literature. The topics covered include normal-mode expansions for a general elliptic operator, Fock space, the Casimir effect, the 'Klein' paradox, particle definition and particle creation in expanding universes, asymptotic expansion of Green's functions and heat kernels, and renormalisation of the stress tensor. The style is pedagogic rather than formal; some knowledge of general relativity and differential geometry is assumed, but the author does supply background material on functional analysis and quantum field theory as required. The book arose from a course taught to graduate students and could be used for self-study or for advanced courses in relativity and quantum field theory.

Space-Time Algebra
Space-Time Algebra

Author: David Hestenes

Publisher: Birkhäuser

Published: 2015-04-25

Total Pages: 122

ISBN-13: 331918413X

DOWNLOAD EBOOK

This small book started a profound revolution in the development of mathematical physics, one which has reached many working physicists already, and which stands poised to bring about far-reaching change in the future. At its heart is the use of Clifford algebra to unify otherwise disparate mathematical languages, particularly those of spinors, quaternions, tensors and differential forms. It provides a unified approach covering all these areas and thus leads to a very efficient ‘toolkit’ for use in physical problems including quantum mechanics, classical mechanics, electromagnetism and relativity (both special and general) – only one mathematical system needs to be learned and understood, and one can use it at levels which extend right through to current research topics in each of these areas. These same techniques, in the form of the ‘Geometric Algebra’, can be applied in many areas of engineering, robotics and computer science, with no changes necessary – it is the same underlying mathematics, and enables physicists to understand topics in engineering, and engineers to understand topics in physics (including aspects in frontier areas), in a way which no other single mathematical system could hope to make possible. There is another aspect to Geometric Algebra, which is less tangible, and goes beyond questions of mathematical power and range. This is the remarkable insight it gives to physical problems, and the way it constantly suggests new features of the physics itself, not just the mathematics. Examples of this are peppered throughout ‘Space-Time Algebra’, despite its short length, and some of them are effectively still research topics for the future. From the Foreward by Anthony Lasenby