Description

Book Synopsis
An Introduction to Modern Cosmology Third Edition is an accessible account of modern cosmological ideas.

Table of Contents

Preface xi

Constants, conversion factors and symbols xiv

1 A (Very) Brief History of Cosmological Ideas 1

2 Observational Overview 3

2.1 In visible light 3

2.2 In other wavebands 6

2.3 Homogeneity and isotropy 10

2.4 The expansion of the Universe 10

2.5 Particles in the Universe 13

2.5.1 What particles are there? 13

2.5.2 Thermal distributions and the black-body spectrum 15

3 Newtonian Gravity 21

3.1 The Friedmann equation 22

3.2 On the meaning of the expansion 25

3.3 Things that go faster than light 25

3.4 The fluid equation 26

3.5 The acceleration equation 27

3.6 On mass, energy and vanishing factors of c2 28

4 The Geometry of the Universe 29

4.1 Flat geometry 29

4.2 Spherical geometry 30

4.3 Hyperbolic geometry 32

4.4 Infinite and observable universes 33

4.5 Where did the Big Bang happen? 33

4.6 Three values of k 34

5 Simple Cosmological Models 37

5.1 Hubble’s law 37

5.2 Expansion and redshift 38

5.3 Solving the equations 39

5.3.1 Matter 40

5.3.2 Radiation 41

5.3.3 Mixtures 42

5.4 Particle number densities 43

5.5 Evolution including curvature 44

6 Observational Parameters 49

6.1 The expansion rate H0 49

6.2 The density parameter Ω0 51

6.3 The deceleration parameter q0 52

7 The Cosmological Constant 55

7.1 Introducing Λ 55

7.2 Fluid description of Λ 56

7.3 Cosmological models with Λ 57

8 The Age of the Universe 61

9 The Density of the Universe and Dark Matter 67

9.1 Weighing the Universe 67

9.1.1 Counting stars 67

9.1.2 Nucleosynthesis foreshadowed 68

9.1.3 Galaxy rotation curves 68

9.1.4 Galaxy cluster composition 70

9.1.5 The formation of structure 71

9.1.6 The geometry of the Universe and the brightness of supernovae 72

9.1.7 Overview 72

9.2 What might the dark matter be? 73

9.2.1 Fundamental particles 73

9.2.2 Compact objects 74

9.3 Dark matter searches 74

10 The Cosmic Microwave Background 77

10.1 Properties of the microwave background 77

10.2 The photon to baryon ratio 79

10.3 The origin of the microwave background 80

10.4 The origin of the microwave background (advanced) 83

11 The Early Universe 87

12 Nucleosynthesis: The Origin of the Light Elements 93

12.1 Hydrogen and helium 93

12.2 Comparing with observations 96

12.3 Contrasting decoupling and nucleosynthesis 98

13 The Inflationary Universe 101

13.1 Problems with the Hot Big Bang 101

13.1.1 The flatness problem 101

13.1.2 The horizon problem 103

13.1.3 Relic particle abundances 104

13.2 Inflationary expansion 105

13.3 Solving the Big Bang problems 106

13.3.1 The flatness problem 106

13.3.2 The horizon problem 107

13.3.3 Relic particle abundances 108

13.4 How much inflation? 108

13.5 Inflation and particle physics 109

14 The Initial Singularity 113

15 Overview: The Standard Cosmological Model 117

Advanced Topic 1 General Relativistic Cosmology 121

1.1 The metric of space–time 121

1.2 The Einstein equations 122

1.3 Aside: Topology of the Universe 124

Advanced Topic 2 Classic Cosmology: Distances and Luminosities 127

2.1 Light propagation and redshift 127

2.2 The observable Universe 130

2.3 Luminosity distance 130

2.4 Angular diameter distance 134

2.5 Source counts 136

Advanced Topic 3 Neutrino Cosmology 139

3.1 The massless case 139

3.2 Massive neutrinos 141

3.2.1 Light neutrinos 141

3.2.2 Heavy neutrinos 142

3.3 Neutrinos and structure formation 142

Advanced Topic 4 Baryogenesis 145

Advanced Topic 5 Structures in the Universe 149

5.1 The observed structures 149

5.2 Gravitational instability 151

5.3 The clustering of galaxies 152

5.4 Cosmic microwave background anisotropies 154

5.4.1 Statistical description of anisotropies 154

5.4.2 Computing the C 156

5.4.3 Microwave background observations 156

5.4.4 Spatial geometry 158

5.5 The origin of structure 159

Advanced Topic 6 Constraining cosmological models 163

6.1 Cosmological models and parameters 163

6.2 Key cosmological observations 164

6.3 Cosmological data analysis 164

6.4 The Standard Cosmological Model: 2014 edition 166

6.5 The future 168

Bibliography 171

Numerical Answers and Hints to Problems 173

Index 177

An Introduction to Modern Cosmology

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A Paperback / softback by Andrew Liddle

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    View other formats and editions of An Introduction to Modern Cosmology by Andrew Liddle

    Publisher: John Wiley & Sons Inc
    Publication Date: 26/06/2015
    ISBN13: 9781118502143, 978-1118502143
    ISBN10: 1118502140
    Also in:
    Science & Nature Cosmology and the universe

    Description

    Book Synopsis
    An Introduction to Modern Cosmology Third Edition is an accessible account of modern cosmological ideas.

    Table of Contents

    Preface xi

    Constants, conversion factors and symbols xiv

    1 A (Very) Brief History of Cosmological Ideas 1

    2 Observational Overview 3

    2.1 In visible light 3

    2.2 In other wavebands 6

    2.3 Homogeneity and isotropy 10

    2.4 The expansion of the Universe 10

    2.5 Particles in the Universe 13

    2.5.1 What particles are there? 13

    2.5.2 Thermal distributions and the black-body spectrum 15

    3 Newtonian Gravity 21

    3.1 The Friedmann equation 22

    3.2 On the meaning of the expansion 25

    3.3 Things that go faster than light 25

    3.4 The fluid equation 26

    3.5 The acceleration equation 27

    3.6 On mass, energy and vanishing factors of c2 28

    4 The Geometry of the Universe 29

    4.1 Flat geometry 29

    4.2 Spherical geometry 30

    4.3 Hyperbolic geometry 32

    4.4 Infinite and observable universes 33

    4.5 Where did the Big Bang happen? 33

    4.6 Three values of k 34

    5 Simple Cosmological Models 37

    5.1 Hubble’s law 37

    5.2 Expansion and redshift 38

    5.3 Solving the equations 39

    5.3.1 Matter 40

    5.3.2 Radiation 41

    5.3.3 Mixtures 42

    5.4 Particle number densities 43

    5.5 Evolution including curvature 44

    6 Observational Parameters 49

    6.1 The expansion rate H0 49

    6.2 The density parameter Ω0 51

    6.3 The deceleration parameter q0 52

    7 The Cosmological Constant 55

    7.1 Introducing Λ 55

    7.2 Fluid description of Λ 56

    7.3 Cosmological models with Λ 57

    8 The Age of the Universe 61

    9 The Density of the Universe and Dark Matter 67

    9.1 Weighing the Universe 67

    9.1.1 Counting stars 67

    9.1.2 Nucleosynthesis foreshadowed 68

    9.1.3 Galaxy rotation curves 68

    9.1.4 Galaxy cluster composition 70

    9.1.5 The formation of structure 71

    9.1.6 The geometry of the Universe and the brightness of supernovae 72

    9.1.7 Overview 72

    9.2 What might the dark matter be? 73

    9.2.1 Fundamental particles 73

    9.2.2 Compact objects 74

    9.3 Dark matter searches 74

    10 The Cosmic Microwave Background 77

    10.1 Properties of the microwave background 77

    10.2 The photon to baryon ratio 79

    10.3 The origin of the microwave background 80

    10.4 The origin of the microwave background (advanced) 83

    11 The Early Universe 87

    12 Nucleosynthesis: The Origin of the Light Elements 93

    12.1 Hydrogen and helium 93

    12.2 Comparing with observations 96

    12.3 Contrasting decoupling and nucleosynthesis 98

    13 The Inflationary Universe 101

    13.1 Problems with the Hot Big Bang 101

    13.1.1 The flatness problem 101

    13.1.2 The horizon problem 103

    13.1.3 Relic particle abundances 104

    13.2 Inflationary expansion 105

    13.3 Solving the Big Bang problems 106

    13.3.1 The flatness problem 106

    13.3.2 The horizon problem 107

    13.3.3 Relic particle abundances 108

    13.4 How much inflation? 108

    13.5 Inflation and particle physics 109

    14 The Initial Singularity 113

    15 Overview: The Standard Cosmological Model 117

    Advanced Topic 1 General Relativistic Cosmology 121

    1.1 The metric of space–time 121

    1.2 The Einstein equations 122

    1.3 Aside: Topology of the Universe 124

    Advanced Topic 2 Classic Cosmology: Distances and Luminosities 127

    2.1 Light propagation and redshift 127

    2.2 The observable Universe 130

    2.3 Luminosity distance 130

    2.4 Angular diameter distance 134

    2.5 Source counts 136

    Advanced Topic 3 Neutrino Cosmology 139

    3.1 The massless case 139

    3.2 Massive neutrinos 141

    3.2.1 Light neutrinos 141

    3.2.2 Heavy neutrinos 142

    3.3 Neutrinos and structure formation 142

    Advanced Topic 4 Baryogenesis 145

    Advanced Topic 5 Structures in the Universe 149

    5.1 The observed structures 149

    5.2 Gravitational instability 151

    5.3 The clustering of galaxies 152

    5.4 Cosmic microwave background anisotropies 154

    5.4.1 Statistical description of anisotropies 154

    5.4.2 Computing the C 156

    5.4.3 Microwave background observations 156

    5.4.4 Spatial geometry 158

    5.5 The origin of structure 159

    Advanced Topic 6 Constraining cosmological models 163

    6.1 Cosmological models and parameters 163

    6.2 Key cosmological observations 164

    6.3 Cosmological data analysis 164

    6.4 The Standard Cosmological Model: 2014 edition 166

    6.5 The future 168

    Bibliography 171

    Numerical Answers and Hints to Problems 173

    Index 177

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