Jan Ambjorn's Books

Elementary Introduction to Quantum Geometry

By: Jan Ambjorn

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Elementary Introduction to Quantum Geometry

By: Jan Ambjorn

This graduate textbook provides an introduction to quantum gravity, when spacetime is two-dimensional. The quantization of gravity is the main missing piece of theoretical physics, but in two dimensions it can be done explicitly with elementary mathematical tools, but it still has most of the conceptional riddles present in higher dimensional (not yet known) quantum gravity. It provides an introduction to a very interdisciplinary field, uniting physics (quantum geometry) and mathematics (combinatorics) in a non-technical way, requiring no prior knowledge of quantum field theory or general relativity. Using the path integral, the chapters provide self-contained descriptions of random walks, random trees and random surfaces as statistical systems where the free relativistic particle, the relativistic bosonic string and two-dimensional quantum gravity are obtained as scaling limits at phase transition points of these statistical systems. The geometric nature of the theories allows one to perform the path integral by counting geometries. In this way the quantization of geometry becomes closely linked to the mathematical fields of combinatorics and probability theory. By counting the geometries, it is shown that the two-dimensional quantum world is fractal at all scales unless one imposes restrictions on the geometries. It is also discussed in simple terms how quantum geometry and quantum matter can interact strongly and change the properties both of the geometries and of the matter systems. It requires only basic undergraduate knowledge of classical mechanics, statistical mechanics and quantum mechanics, as well as some basic knowledge of mathematics at undergraduate level. It will be an ideal textbook for graduate students in theoretical and statistical physics and mathematics studying quantum gravity and quantum geometry. Key features: Presents the first elementary introduction to quantum geometry Explores how to understand quantum geometry without prior knowledge beyond bachelor level physics and mathematics. Contains exercises, problems and solutions to supplement and enhance learning

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Page Count

329

Publisher

CRC Press

Published Date

ISBN 10

1000776026

ISBN 13

9781000776027

Elementary Introduction to Quantum Geometry

By: Jan Ambjorn

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Elementary Introduction to Quantum Geometry

By: Jan Ambjorn

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Page Count

329

Publisher

CRC Press

Published Date

ISBN 10

1000776026

ISBN 13

9781000776027

Quantum Geometry

A Statistical Field Theory Approach

By: Jan Ambjørn,Bergfinnur Durhuus,Þórður Jónsson

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Quantum Geometry

A Statistical Field Theory Approach

By: Jan Ambjørn,Bergfinnur Durhuus,Þórður Jónsson

Describes random geometry and applications to strings, quantum gravity, topological field theory and membrane physics.

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Page Count

377

Publisher

Cambridge University Press

Published Date

ISBN 10

0521461677

ISBN 13

9780521461672

The Geometry of Dynamical Triangulations

By: Jan Ambjorn,Mauro Carfora,Annalisa Marzuoli

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The Geometry of Dynamical Triangulations

By: Jan Ambjorn,Mauro Carfora,Annalisa Marzuoli

The express purpose of these lecture notes is to go through some aspects of the simplicial quantum gravity model known as the dynamical triangula tions approach. Emphasis has been on laying the foundations of the theory and on illustrating its subtle and often unexplored connections with many distinct mathematical fields ranging from global Riemannian geometry, to moduli theory, number theory, and topology. Our exposition will concentrate on these points so that graduate students may find in these notes a useful exposition of some of the rigorous results one can -establish in this field and hopefully a source of inspiration for new exciting problems. We try as far as currently possible to expose the interplay between the analytical aspects of dynamical triangulations and the results of Monte Carlo simulations. The techniques described here are rather novel and allow us to address points of current interest in the subject of simplicial quantum gravity while requiring very little in the way of fancy field-theoretical arguments. As a consequence, these notes contain mostly original and until now unpublished material, which will hopefully be of interest both to the expert practitioner and to graduate students entering the field. Among the topics addressed here in considerable detail are the following. (i) An analytical discussion of the geometry of dynamical triangulations in dimensions n == 3 and n == 4.

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