The deep universe : Saas-Fee Advanced Course 23, lecture notes 1993, Swiss Society for Astrophysics and Astronomy

Written by three celebrated astronomers renowned for their excellence in both research and teaching, the central theme is approached in three complementary ways: the smooth evolution of the universe from the Big Bang to the present structures of matter; as a meandering road paved by our observations of stars, galaxies, and clusters; and how these approaches have been gradually developed and intertwined in the historical process leading to modern-day cosmology.

Evolution in the Galaxy Population.- Foundations of Galaxy Evolution Models.- Evolutionary Synthesis Models.- Basic Statistics of Galaxies.- Computing Models for Faint-Galaxy Samples.- Distant Galaxy Observations in the Real World.- Galaxy Profiles at High Redshift.- Reconciling Counts with the Redshift Distribution.- The Butcher-Oemler Effect - A Case Study.- Deep-Universe Programs for the Future.- to the Standard Model.- The Physics of Background Radiation.- Observations of the Extragalactic Background Radiation.- The Robertson-Walker Metric.- World Models.- Number Counts and the Background Radiation.- The Origin of the X-ray and Gamma-ray Backgrounds.- A Brief Thermal History of the Universe.- The Origin of the Large-Scale Structure of the Universe.- Dark Matter and Galaxy Formation.- Fluctuations in the Cosmic Microwave Background Radiation.- The Intergalactic Gas.- Galaxy Formation and the Background Radiation.- The First Test: The Count-Magnitude Relation: Theory and Practice I (The Early Phase 1920-1938).- The Count-Magnitude Relation: Theory and Practice II (The Modern Attempts).- The Second Test: Angular Size = f(z,q0).- The Third Test: The Redshift-Distance Relation Based on the m(z, qo) Hubble Diagram.- Is the Expansion Real?.- The Fourth Test: Timing (Age of the Galaxy).- Timing Test Continued.- The Hubble Constant from Type Ia Supernovae.- Observational Selection Bias.