Gauge Fields, Knots And Gravity
Title | Gauge Fields, Knots And Gravity PDF eBook |
Author | John C Baez |
Publisher | World Scientific Publishing Company |
Pages | 481 |
Release | 1994-10-24 |
Genre | Science |
ISBN | 9813103248 |
This is an introduction to the basic tools of mathematics needed to understand the relation between knot theory and quantum gravity. The book begins with a rapid course on manifolds and differential forms, emphasizing how these provide a proper language for formulating Maxwell's equations on arbitrary spacetimes. The authors then introduce vector bundles, connections and curvature in order to generalize Maxwell theory to the Yang-Mills equations. The relation of gauge theory to the newly discovered knot invariants such as the Jones polynomial is sketched. Riemannian geometry is then introduced in order to describe Einstein's equations of general relativity and show how an attempt to quantize gravity leads to interesting applications of knot theory.
Gauge Fields, Knots, and Gravity
Title | Gauge Fields, Knots, and Gravity PDF eBook |
Author | Associate Professor Department of Mathematics John C Baez |
Publisher | World Scientific Publishing Company Incorporated |
Pages | 465 |
Release | 1994 |
Genre | Science |
ISBN | 9789810217297 |
This is an introduction to the basic tools of mathematics needed to understand the relation between knot theory and quantum gravity. The book begins with a rapid course on manifolds and differential forms, emphasizing how these provide a proper language for formulating Maxwell's equations on arbitrary spacetimes. The authors then introduce vector bundles, connections and curvature in order to generalize Maxwell theory to the Yang-Mills equations. The relation of gauge theory to the newly discovered knot invariants such as the Jones polynomial is sketched. Riemannian geometry is then introduced in order to describe Einstein's equations of general relativity and show how an attempt to quantize gravity leads to interesting applications of knot theory.
Gauge Fields, Knots, and Gravity
Title | Gauge Fields, Knots, and Gravity PDF eBook |
Author | John C. Baez |
Publisher | World Scientific Publishing Company Incorporated |
Pages | 465 |
Release | 1994 |
Genre | Science |
ISBN | 9789810220341 |
This is an introduction to the basic tools of mathematics needed to understand the relation between knot theory and quantum gravity. The book begins with a rapid course on manifolds and differential forms, emphasizing how these provide a proper language for formulating Maxwell's equations on arbitrary spacetimes. The authors then introduce vector bundles, connections and curvature in order to generalize Maxwell theory to the Yang-Mills equations. The relation of gauge theory to the newly discovered knot invariants such as the Jones polynomial is sketched. Riemannian geometry is then introduced in order to describe Einstein's equations of general relativity and show how an attempt to quantize gravity leads to interesting applications of knot theory.
Gauge Fields, Knots and Gravity
Title | Gauge Fields, Knots and Gravity PDF eBook |
Author | John C. Baez |
Publisher | |
Pages | 465 |
Release | 1994 |
Genre | Electromagnetism |
ISBN | 9787506291767 |
Differential Geometry, Gauge Theories, and Gravity
Title | Differential Geometry, Gauge Theories, and Gravity PDF eBook |
Author | M. Göckeler |
Publisher | Cambridge University Press |
Pages | 248 |
Release | 1989-07-28 |
Genre | Mathematics |
ISBN | 9780521378215 |
Cambridge University Press is committed to keeping scholarly work in print for as long as possible. A short print-run of this academic paperback has been produced using digital technology. This technology has enabled Cambridge to keep the book in print for specialists and students when traditional methods of reprinting would not have been feasible. While the new digital cover differs from the original, the text content is identical to that of previous printings.
Gauge Theory and Variational Principles
Title | Gauge Theory and Variational Principles PDF eBook |
Author | David Bleecker |
Publisher | Courier Corporation |
Pages | 202 |
Release | 2005-12-10 |
Genre | Science |
ISBN | 0486445461 |
This text provides a framework for describing and organizing the basic forces of nature and the interactions of subatomic particles. A detailed and self-contained mathematical account of gauge theory, it is geared toward beginning graduate students and advanced undergraduates in mathematics and physics. This well-organized treatment supplements its rigor with intuitive ideas. Starting with an examination of principal fiber bundles and connections, the text explores curvature; particle fields, Lagrangians, and gauge invariance; Lagrange's equation for particle fields; and the inhomogeneous field equation. Additional topics include free Dirac electron fields; interactions; calculus on frame bundle; and unification of gauge fields and gravitation. The text concludes with references, a selected bibliography, an index of notation, and a general index.
Loops, Knots, Gauge Theories and Quantum Gravity
Title | Loops, Knots, Gauge Theories and Quantum Gravity PDF eBook |
Author | Rodolfo Gambini |
Publisher | Cambridge University Press |
Pages | 344 |
Release | 2000-07-03 |
Genre | Mathematics |
ISBN | 9780521654753 |
Now in paperback, this text provides a self-contained introduction to applications of loop representations and knot theory in particle physics and quantum gravity. Loop representations (and the related topic of knot theory) are of considerable current interest because they provide a unified arena for the study of the gauge invariant quantization of Yang-Mills theories and gravity, and suggest a promising approach to the eventual unification of the four fundamental forces. This text begins with a detailed review of loop representation theory. It then goes on to describe loop representations in Maxwell theory, Yang-Mills theories as well as lattice techniques. Applications in quantum gravity are then discussed in detail. Following chapters move on to consider knot theories, braid theories and extended loop representations in quantum gravity. A final chapter assesses the current status of the theory and points out possible directions for future research.