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Observational Tests of Cosmological Inflation

  • Book
  • © 1991

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Editors:
  1. T. Shanks

    1. Physics Department, University of Durham, UK

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  2. A. J. Banday

    1. Physics Department, University of Durham, UK

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  3. R. S. Ellis

    1. Physics Department, University of Durham, UK

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  4. C. S. Frenk

    1. Physics Department, University of Durham, UK

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  5. A. W. Wolfendale

    1. Physics Department, University of Durham, UK

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Part of the book series: Nato Science Series C: (ASIC, volume 348)

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Table of contents (58 chapters)

  1. Front Matter

    Pages i-xx
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  2. Fundamental Arguments for Inflation

    • Alan H. Guth
    Pages 1-21

  3. Predictions of Inflation

    • Andrew R. Liddle
    Pages 23-38

  4. Classicality of Density Perturbations in the Early Universe

    • Robert Brandenberger, Raymond Laflamme, Milan Mijić
    Pages 39-45

  5. The Influence of Non-Linear Density Fluctuations on the Microwave Sky

    • J. L. Sans, E. Martínez-González
    Pages 47-52

  6. Quantum Cosmology and the Cosmological Constant

    • Ian Moss
    Pages 53-61

  7. Lessons from Inflation and Cold Dark Matter

    • P. J. E. Peebles
    Pages 63-73

  8. The Topology of Galaxy Clustering

    • Peter Coles, Manolis Plionis
    Pages 75-79

  9. Can Non-Gaussian Fluctuations for Structure Formation Arise from Inflation?

    • D. S. Salopek
    Pages 81-89

  10. Non-Baryonic Dark Matter

    • S. Sarkar
    Pages 91-102

  11. Are Galactic Halos Made of Brown Dwarfs or Black Holes?

    • B. J. Carr
    Pages 103-109

  12. Ages of Globular Clusters

    • Pierre Demarque, Constantine P. Deliyannis, Ata Sarajedini
    Pages 111-129

  13. Globular Cluster Ages and Cosmology

    • Alvio Renzini
    Pages 131-146

  14. The Local Distance Scale: How Reliable is it?

    • M. W. Feast
    Pages 147-160

  15. Distances to Virgo and Beyond

    • Michael Rowan-Robinson
    Pages 161-171

  16. The Luminosity-Line-Width Relations and the Value of Ho

    • M. J. Pierce
    Pages 173-178

  17. Observational Status of Ho

    • G. A. Tammann
    Pages 179-185

  18. Calibrating Cepheid Sequences in Nearby Galaxies

    • N. Metcalfe, T. Shanks
    Pages 187-192

  19. New D — σ Results for Coma Ellipticals

    • J. R. Lucey, R. Guzman, D. Carter, R. J. Terlevich
    Pages 193-197

  20. Novae and the Distance Scale

    • C. J. Pritchet
    Pages 199-203
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Keywords

About this book

This book represents the proceedings from the NATO sponsored Advanced Research Workshop entitled "Observational Tests of Inflation" held at the University of Durham, England on the 10th-14th December, 1990. In recent years, the cosmological inflation model has drawn together the worlds of particle physics, theoretical cosmology and observational astronomy. The aim of the workshop was to bring together experts in all of these fields to discuss the current status of the inflation theory and its observational predictions. The simplest inflation model makes clear predictions which are testable by astronomical observation. Foremost is the prediction that the cosmological density parameter, no, should have a value negligibly different from the critical, Einstein-de Sitter value of 00=1. The other main prediction is that the spectrum of primordial density fluctuations should be Gaussian and take the Harrison-Zeldovich form. The prediction that n =l, in patticular, leads to several important consequences o for cosmology. Firstly, there is the apparent contradiction with the limits on baryon density from Big Bang nucleosynthesis which has led to the common conjecture that weakly interacting particles rather than baryons may form the dominant mass constituent of the Universe. Secondly, with n =l, the age of the Universe is uncomfortably short if o the Hubble constant and the ages of the oldest star clusters lie within their currently believed limits.

Editors and Affiliations

  • Physics Department, University of Durham, UK

    T. Shanks, A. J. Banday, R. S. Ellis, C. S. Frenk, A. W. Wolfendale

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