The Casimir effect arises when the zero-point vacuum oscillation spectrum is distorted by boundedness of the field quantization domain or by non-trivial spatial topology. As such, it is a widely used and intensely discussed phenomenon. This is the first book devoted to the Casimir effect. It will be valued by workers in a number of fields, including elementary particle physics, statistical physics, quantum field theory, gravitation and cosmology. Methods of calculating Casimir energies and forces are considered, and results given for bounded domains, dispersive media, and topologically non-trivial spaces. All these applications are outlined in this work covering a widely known, used and intensively discussed effect by specialists.
The Casimir effect arises when the zero-point vacuum oscillation spectrum is distorted by boundedness of the field quantization domain or by non-trivial spatial topology. As such, it is a widely used and intensely discussed phenomenon. This is the first book devoted to the Casimir effect. It will be valued by workers in a number of fields, including elementary particle physics, statistical physics, quantum field theory, gravitation and cosmology. Methods of calculating Casimir energies and forces are considered, and results given for bounded domains, dispersive media, and topologically non-trivial spaces. All these applications are outlined in this work covering a widely known, used and intensively discussed effect by specialists.
1: Physical foundations of the Casimir effect
2: The Casimir effect for various cases
3: Realistic quantization domain boundary properties
4: Vacuum polarization in topologically non-trivial spaces and
cosmology
5: Effective temperature of the vacuum
6: The Casimir effect in elementary particle physics
The serious enthusiast of the Casimir effect will rejoice at the publication of this book since it contains a wealth of material, some of which is not very widely known...The book has next to no overlap with books devoted to the Casimir effect in condensed matter physics, like Krech's book ("The Casimir Effect in Critical Systems") or Langbein's book ("Van der Waals Attraction").
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