
The subject of this book is the Casimir effect, a manifestation of zero-point oscillations of the quantum vacuum resulting in forces acting between closely spaced bodies. For the benefit of the reader, the book assembles field-theoretical foundations of this phenomenon, applications of the general theory to real materials, and a comprehensive description of all recently performed measurements of the Casimir force with a comparison between experiment and theory. There is an urgent need for a book of this type, given the increase of interest in forces originating from the quantum vacuum. Numerous new results have been obtained in the last few years which are not reflected in previous books on the subject, but which are very promising for fundamental science and nanotechnology. The book is a unique source of information presenting a critical assessment of all the main results and approaches from hundreds of journal papers. It also outlines new ideas which have not yet been universally accepted but which are finding increasing support from experiment.
This book investigates the theoretical foundations and experimental measurements of the Casimir effect, a phenomenon arising from zero-point oscillations of the quantum vacuum. The authors, a team of distinguished physicists, synthesize decades of research to provide a rigorous framework for understanding how these forces act between closely spaced bodies. By bridging the gap between abstract field theory and practical applications in nanotechnology, the text serves as a comprehensive reference for the current state of vacuum force research.
What You Will Find
Scope Limits
Experts recognize this work as a definitive reference for researchers and graduate students specializing in quantum vacuum phenomena. Readers frequently note the high level of technical density and the meticulous nature of the authors' comparative analysis between theory and experiment.
Page Count:
960
Publication Date:
2009-01-01
Publisher:
OUP Oxford
ISBN-10:
0191579882
ISBN-13:
9780191579882
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