Black Holes
New Horizons
Nonfiction, Science & Nature, Science, Physics, Quantum Theory, Astrophysics & Space Science
| Author: | Sean Alan Hayward | ISBN: | 9789814425711 |
| Publisher: | World Scientific Publishing Company | Publication: | March 8, 2013 |
| Imprint: | WSPC | Language: | English |
| Author: | Sean Alan Hayward |
| ISBN: | 9789814425711 |
| Publisher: | World Scientific Publishing Company |
| Publication: | March 8, 2013 |
| Imprint: | WSPC |
| Language: | English |
Black holes, once just fascinating theoretical predictions of how gravity warps space-time according to Einstein's theory, are now generally accepted as astrophysical realities, formed by post-supernova collapse, or as supermassive black holes mysteriously found at the cores of most galaxies, powering active galactic nuclei, the most powerful objects in the universe. Theoretical understanding has progressed in recent decades with a wider realization that local concepts should characterize black holes, rather than the global concepts found in textbooks. In particular, notions such as trapping horizon allow physically meaningful quantities and equations, describing how a black hole evolves. This has led to discoveries in fields as diverse as classical and numerical general relativity, differential geometry, thermodynamics, quantum field theory, and quantum gravity. There is heretofore no one volume which covers all the main aspects, so this volume collects together summaries and recent research, each chapter written by an expert or experts in a given field. This is intended for readers at a graduate level upwards, who wish to learn about the wide range of research concerning black holes.
Contents:
- An Introduction to Local Black Hole Horizons in the 3+1 Approach to General Relativity (José Luis Jaramillo)
- Physical Aspects of Quasi-Local Black Hole Horizons (Alex B Nielsen)
- On Uniqueness Results for Static, Asymptotically Flat Initial Data Containing MOTS (Alberto Carrasco and Marc Mars)
- Horizons in the Near-Equilibrium Regime (Ivan Booth)
- Isolated Horizons in Classical and Quantum Gravity (Jonathan Engle and Tomáš Liko)
- Quantum Thermometers in Stationary Space-Times with Horizons (Sergio Zerbini)
- Relativistic Thermodynamics (Sean A Hayward)
- Trapped Surfaces (J M M Senovilla)
- Some Examples of Trapped Surfaces (I Bengtsson)
Readership: Professional physicists and mathematicians.
Key Features:
- Each chapter is written by an expert or experts on a given topic, up to the current state of knowledge. In this way a broad range of topics is covered in depth, which has previously been available only as individual research papers
Black holes, once just fascinating theoretical predictions of how gravity warps space-time according to Einstein's theory, are now generally accepted as astrophysical realities, formed by post-supernova collapse, or as supermassive black holes mysteriously found at the cores of most galaxies, powering active galactic nuclei, the most powerful objects in the universe. Theoretical understanding has progressed in recent decades with a wider realization that local concepts should characterize black holes, rather than the global concepts found in textbooks. In particular, notions such as trapping horizon allow physically meaningful quantities and equations, describing how a black hole evolves. This has led to discoveries in fields as diverse as classical and numerical general relativity, differential geometry, thermodynamics, quantum field theory, and quantum gravity. There is heretofore no one volume which covers all the main aspects, so this volume collects together summaries and recent research, each chapter written by an expert or experts in a given field. This is intended for readers at a graduate level upwards, who wish to learn about the wide range of research concerning black holes.
Contents:
- An Introduction to Local Black Hole Horizons in the 3+1 Approach to General Relativity (José Luis Jaramillo)
- Physical Aspects of Quasi-Local Black Hole Horizons (Alex B Nielsen)
- On Uniqueness Results for Static, Asymptotically Flat Initial Data Containing MOTS (Alberto Carrasco and Marc Mars)
- Horizons in the Near-Equilibrium Regime (Ivan Booth)
- Isolated Horizons in Classical and Quantum Gravity (Jonathan Engle and Tomáš Liko)
- Quantum Thermometers in Stationary Space-Times with Horizons (Sergio Zerbini)
- Relativistic Thermodynamics (Sean A Hayward)
- Trapped Surfaces (J M M Senovilla)
- Some Examples of Trapped Surfaces (I Bengtsson)
Readership: Professional physicists and mathematicians.
Key Features:
- Each chapter is written by an expert or experts on a given topic, up to the current state of knowledge. In this way a broad range of topics is covered in depth, which has previously been available only as individual research papers
