The two-volume book Gravitational Waves provides a comprehensive and detailed account of the physics of gravitational waves. While Volume 1 is devoted to the theory and experiments, Volume 2 discusses what can be learned from gravitational waves in astrophysics and in cosmology, by systematizing a large body of theoretical developments that have taken place over the last decades. The second volume also includes a detailed discussion of the first direct detections of gravitational waves. In the author's typical style, the theoretical results are generally derived afresh, clarifying or streamlining the existing derivations whenever possible, and providing a coherent and consistent picture of the field.
The first volume of Gravitational Waves , which appeared in 2007, has established itself as the standard reference in the field. The scientific community has eagerly awaited this second volume. The recent direct detection of gravitational waves makes the topics in this book particularly timely.
Rezensionen / Stimmen
The book covers a staggering breadth of material and is extremely useful as a bird's-eye overview of the field... From now on I will recommend it as the best entry point for students who want to join this blooming research field * Emanuele Berti, Physics Today * Michele Maggiore's textbook spends equal effort reviewing the astrophysical and cosmological theories behind the production of cosmic gravitational waves and discussing the observational constraints that could be gleaned from the handful of LIGO/Virgo detections, the pulsar timing arrays and upcoming facilities like LISA. * Nature Astronomy *
Sprache
Verlagsort
Zielgruppe
Illustrationen
125 grayscale and 54 color line figures
Maße
Höhe: 254 mm
Breite: 195 mm
Dicke: 48 mm
Gewicht
ISBN-13
978-0-19-857089-9 (9780198570899)
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Schweitzer Klassifikation
Michele Maggiore is Professor of Physics at the Department of Theoretical Physics, University of Geneva, Switzerland. He served as President of the Physics Section at the University of Geneva until 2017.
Autor*in
ProfessorProfessor, Department of Theoretical Physics, University of Geneva, Switzerland
III: Astrophysical Sources of GWs
10: Stellar collapse
11: Neutron stars
12: Black-hole perturbation theory
13: Properties of dynamical space-times
14: GWs from coalescing compact binaries. Theory
IV: Cosmology and Gravitational Waves
17: Basics of FRW cosmology
18: Helicity decomposition of the metric perturbations
19: Evolution of cosmological perturbations
20: The imprint of GWs on the CMB
21: Inflation and primordial perturbations
22: Stochastic backgrounds of cosmological origin
23: Stochastic backgrounds and pulsar timing arrays
