The Distribution of the Galaxies: Gravitational Clustering in Cosmologyby William C. Saslaw
Pub. Date: 02/04/2008
Publisher: Cambridge University Press
Contemporary astronomers continue to search for ways to understand the irregular distribution of galaxies in our Universe. This volume describes gravitational theory, computer simulations and observations related to galaxy distribution functions, which is a general method for measuring the distribution of galaxies and their motions. Coverage embeds distribution… See more details below
Contemporary astronomers continue to search for ways to understand the irregular distribution of galaxies in our Universe. This volume describes gravitational theory, computer simulations and observations related to galaxy distribution functions, which is a general method for measuring the distribution of galaxies and their motions. Coverage embeds distribution functions in a broader astronomical context, and includes other contemporary topics such as correlation functions, fractals, bound clusters, topology, percolation and minimal spanning trees. Throughout, theory, computer simulation and observation are carefully interwoven and critically compared, and key results are derived and the necessary gravitational physics provided. The book also shows how future observations can test the theoretical models for the evolution of galaxy clustering at early times in our Universe. This clear and authoritative volume is written at a level suitable for graduate students, and will be of key interest to astronomers, cosmologists, physicists and applied statisticians.
- Cambridge University Press
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Table of ContentsPrologue; Part I. Historical: 1. Cosmology myths and primitive notions; 2. First qualitative physics: the Newton-Bentley exchange; 3. Glimpses of structure; 4. Number counts and distributions; 5. Seeds of grand creation; 6. Clusters versus correlations; 7. The expanding search for homogeneity; Part II. Descriptions of Clustering: 8. Patterns and illusions; 9. Percolation; 10. Minimal spanning trees; 11. Topology; 12. Fractals; 13. Bound clusters; 14. Correlation functions; 15. Distribution functions; Part III. Gravity and Correlation Functions: 16. The growth of correlations: I. A fluid description; 17. The growth of correlations: II. A particle description; 18. General correlation properties; 19. Computer simulations; 20. Simulations and observations of two-particle correlations; Part IV. Gravity and Distribution Functions: 21. General properties of distribution functions; 22. Dynamics of distribution functions; 23. Short review of basic thermodynamics; 24. Thermodynamics and gravity; 25. Thermodynamic formulation of the cosmological many-body problem; 26. The functional form of b(n,T); 27. Derivation of the spatial distribution function; 28. Properties of the spatial gravitational quasi-equilibrium distribution; 29. The velocity distribution function; 30. Evolution of the GQED; Part V. Computer Experiments for Distribution Functions: 31. Spatial distribution functions; 32. Velocity distribution functions; Part VI. Observations of Distribution Functions: 33. Observed spatial distribution functions; 34. Observed peculiar velocity distribution functions; 35. Observed evolution of distribution functions; Part VII. Future Unfoldings: 36. Galaxy merging; 37. Dark matter again; 38. Initial states; 39. Ultimate fates; 40. Epilogue; Bibliography; Index.
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