This book, now in an expanded and revised second edition, starts by introducing fundamental astronomical concepts and goes on to present a clear yet comprehensive exploration of stellar structure and evolution, binary interactions, and dynamical systems. Notably, it includes an up-to-date discussion of pair-instability supernovae and provides an overview of gravitational wave emission and their detection using binary systems, highlighting the landmark 2015 discovery of gravitational waves in the merger of black hole binaries by LIGO.
The book is organized into four parts. Part I introduces stellar properties and the classification of binary systems. Part II covers the processes of stellar evolution and radiative transfer. Part III focuses on the development and application of stellar models. Part IV examines the evolution of compact binary systems. The book provides a brief introduction to gravitational radiation from binary systems and their observational techniques.
Through detailed explanations, derivations of key concepts, and worked examples, readers will gain a strong understanding of the astrophysics of compact binary populations, and obtain a foundation for further study in specialized areas of stellar astrophysics. No prior knowledge of astronomy is required, though familiarity with undergraduate-level quantum mechanics, classical mechanics, and thermodynamics is recommended.
This updated edition is an essential resource for upper-level undergraduate and first-year graduate students in physics.
This book, now in an expanded and revised second edition, starts by introducing fundamental astronomical concepts and goes on to present a clear yet comprehensive exploration of stellar structure and evolution, binary interactions, and dynamical systems. Notably, it includes an up-to-date discussion of pair-instability supernovae and provides an overview of gravitational wave emission and their detection using binary systems, highlighting the landmark 2015 discovery of gravitational waves in the merger of black hole binaries by LIGO.
The book is organized into four parts. Part I introduces stellar properties and the classification of binary systems. Part II covers the processes of stellar evolution and radiative transfer. Part III focuses on the development and application of stellar models. Part IV examines the evolution of compact binary systems. The book provides a brief introduction to gravitational radiation from binary systems and their observational techniques.
Through detailed explanations, derivations of key concepts, and worked examples, readers will gain a strong understanding of the astrophysics of compact binary populations, and obtain a foundation for further study in specialized areas of stellar astrophysics. No prior knowledge of astronomy is required, though familiarity with undergraduate-level quantum mechanics, classical mechanics, and thermodynamics is recommended.
This updated edition is an essential resource for upper-level undergraduate and first-year graduate students in physics.
Matthew Benacquista
Compact Binaries Single and Binary stars Star Cluster Dynamics Stellar Evolution Undergraduate Textbook Dynamical Stellar Systems Black Hole Binaries Neutron-Neutron Star Binaries Observing Gravitational Radiation Gravitational Waves LIGO discovery of black hole binaries