This book lays the foundations of quantum cosmology, developing classical cosmology and quantum physics based on general principles without requiring detailed background knowledge in these fields. Throughout the book, the discussion focuses on the physical meaning of space-time - classical or quantum - and on the important requirement of general covariance. Various classical models are derived from this condition and applied to basic questions in cosmology and the physics of black holes. The book's introduction of relevant ingredients from quantum physics makes it possible to derive fundamental features of quantum cosmology, to present the main approaches to quantum gravity, including string theory and causal dynamical triangulations, and to outline some of their cosmological implications. It is an essential guide for researchers in quantum gravity and astrophysicists interested in fundamental aspects of cosmology.
Key Features
- Emphasizes the physics of quantum cosmology
- Employs new semiclassical methods to avoid counter-intuitive aspects in quantum cosmology
- Presents quantum cosmology in the language of well-understood physics models
- Highlights implications of general covariance in classical and quantum cosmology
- Includes results from a variety of approaches to quantum cosmology, as well as relations between them
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Verlagsort
Zielgruppe
Illustrationen
With figures in colour and black and white
ISBN-13
978-0-7503-2460-1 (9780750324601)
DOI
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Schweitzer Klassifikation
Martin Bojowald is a professor of physics at Penn State University. His research is focused on different aspects of quantum gravity. The nature of the field allows a broad range of projects, some of which focus more on mathematical aspects and others on physical applications.
Autor*in
The Pennsylvania State University, USA
