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Inflation, infinity, equilibrium and the observable Universe Andreas Albrecht UC Davis UCD Colloquium October 3, 2011 1A. UCD 10/3/11.

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Presentation on theme: "Inflation, infinity, equilibrium and the observable Universe Andreas Albrecht UC Davis UCD Colloquium October 3, 2011 1A. UCD 10/3/11."— Presentation transcript:

1 Inflation, infinity, equilibrium and the observable Universe Andreas Albrecht UC Davis UCD Colloquium October 3, 2011 1A. Albrecht @ UCD 10/3/11

2

3

4 E

5 5 Cosmic Inflation:  Great phenomenology, but  Original goal of explaining why the cosmos is *likely* to take the form we observe has proven very difficult to realize.

6 A. Albrecht @ UCD 10/3/116 Cosmic Inflation:  Great phenomenology, but  Original goal of explaining why the cosmos is *likely* to take the form we observe has proven very difficult to realize. This Talk

7 A. Albrecht @ UCD 10/3/117 Cosmic Inflation:  Great phenomenology, but  Original goal of explaining why the cosmos is *likely* to take the form we observe has proven very difficult to realize.  OR: Just be happy we have equations to solve?

8 OUTLINE 1.Big Bang & inflation basics 2.Eternal inflation 3.de Sitter Equilibrium cosmology 4.Cosmic curvature from de Sitter Equilibrium cosmology A. Albrecht @ UCD 10/3/118

9 OUTLINE 1.Big Bang & inflation basics 2.Eternal inflation 3.de Sitter Equilibrium cosmology 4.Cosmic curvature from de Sitter Equilibrium cosmology A. Albrecht @ UCD 10/3/119

10 Friedmann Eqn. A. Albrecht @ UCD 10/3/1110

11 Friedmann Eqn. Curvature A. Albrecht @ UCD 10/3/1111

12 Friedmann Eqn. Curvature Relativistic Matter A. Albrecht @ UCD 10/3/1112

13 Friedmann Eqn. Curvature Relativistic Matter Non-relativistic Matter A. Albrecht @ UCD 10/3/1113

14 Friedmann Eqn. Curvature Relativistic Matter Non-relativistic Matter Dark Energy A. Albrecht @ UCD 10/3/1114

15 A. Albrecht @ UCD 10/3/1115

16 A. Albrecht @ UCD 10/3/1116

17 A. Albrecht @ UCD 10/3/1117

18 The curvature feature/“problem” A. Albrecht @ UCD 10/3/1118

19 ! The curvature feature/“problem” A. Albrecht @ UCD 10/3/1119

20 ! The curvature feature/“problem” A. Albrecht @ UCD 10/3/1120

21 ! The curvature feature/“problem” A. Albrecht @ UCD 10/3/1121

22 The curvature feature/“problem” A. Albrecht @ UCD 10/3/1122

23 ! The curvature feature/“problem” A. Albrecht @ UCD 10/3/1123

24 The monopole “problem” A. Albrecht @ UCD 10/3/1124

25 ! The monopole “problem” A. Albrecht @ UCD 10/3/1125

26 Friedmann Eqn. Curvature Relativistic Matter Non-relativistic Matter Dark Energy A. Albrecht @ UCD 10/3/1126

27 Friedmann Eqn. Curvature Relativistic Matter Non-relativistic Matter Dark Energy Now add cosmic inflation Inflaton A. Albrecht @ UCD 10/3/1127

28 Friedmann Eqn. Curvature Relativistic Matter Non-relativistic Matter Dark Energy Now add cosmic inflation Inflaton A. Albrecht @ UCD 10/3/1128

29 The inflaton: ~Homogeneous scalar field obeying All potentials have a “low roll” (overdamped) regime where Cosmic damping Coupling to ordinary matter A. Albrecht @ UCD 10/3/1129

30 The inflaton: ~Homogeneous scalar field obeying All potentials have a “low roll” (overdamped) regime where Cosmic damping Coupling to ordinary matter A. Albrecht @ UCD 10/3/1130

31 Add a period of Inflation: A. Albrecht @ UCD 10/3/1131

32 With inflation, initially large curvature is OK: A. Albrecht @ UCD 10/3/1132

33 With inflation, early production of large amounts of non-relativistic matter (monopoles) is ok : A. Albrecht @ UCD 10/3/1133

34 Inflation detail: A. Albrecht @ UCD 10/3/1134

35 Inflation detail: A. Albrecht @ UCD 10/3/1135

36 Hubble Length A. Albrecht @ UCD 10/3/1136

37 Hubble Length A. Albrecht @ UCD 10/3/1137 (aka )

38 A. Albrecht @ UCD 10/3/1138

39 A. Albrecht @ UCD 10/3/1139

40 A. Albrecht @ UCD 10/3/1140

41 A. Albrecht @ UCD 10/3/1141

42 A. Albrecht @ UCD 10/3/1142

43 A. Albrecht @ UCD 10/3/1143

44 A. Albrecht @ UCD 10/3/1144

45 A. Albrecht @ UCD 10/3/1145

46 A. Albrecht @ UCD 10/3/1146

47 A. Albrecht @ UCD 10/3/1147

48 A. Albrecht @ UCD 10/3/1148

49 End of inflation A. Albrecht @ UCD 10/3/1149

50 End of reheating A. Albrecht @ UCD 10/3/1150

51 Weak Scale A. Albrecht @ UCD 10/3/1151

52 BBN A. Albrecht @ UCD 10/3/1152

53 Radiation- Matter equality A. Albrecht @ UCD 10/3/1153

54 Today A. Albrecht @ UCD 10/3/1154

55 Perturbations from inflation comoving A. Albrecht @ UCD 10/3/1155

56 Here Perturbations from inflation comoving A. Albrecht @ UCD 10/3/1156

57 Here Perturbations from inflation comoving A. Albrecht @ UCD 10/3/1157

58 Here comoving A. Albrecht @ UCD 10/3/1158

59 Here comoving A. Albrecht @ UCD 10/3/1159

60 Inflation detail: A. Albrecht @ UCD 10/3/1160

61 Inflation detail: to give A. Albrecht @ UCD 10/3/1161

62 Here comoving A. Albrecht @ UCD 10/3/1162

63 Brown et al. Astrophys.J.705:978-999,2009 A. Albrecht @ UCD 10/3/1163

64 Brown et al. Astrophys.J.705:978-999,2009 A. Albrecht @ UCD 10/3/1164

65 A. Albrecht @ UCD 10/3/1165 Keiser et al. 2011

66 A. Albrecht @ UCD 10/3/1166 Keiser et al. 2011

67 OUTLINE 1.Big Bang & inflation basics 2.Eternal inflation 3.de Sitter Equilibrium cosmology 4.Cosmic curvature from de Sitter Equilibrium cosmology A. Albrecht @ UCD 10/3/1167

68 OUTLINE 1.Big Bang & inflation basics 2.Eternal inflation 3.de Sitter Equilibrium cosmology 4.Cosmic curvature from de Sitter Equilibrium cosmology A. Albrecht @ UCD 10/3/1168

69 Does inflation make the SBB natural? How easy is it to get inflation to start? What happened before inflation? A. Albrecht @ UCD 10/3/1169

70 Quantum fluctuations during slow roll: A region of one field coherence length ( ) gets a new quantum contribution to the field value from an uncorrelated commoving mode of size in a time leading to a (random) quantum rate of change: Thus measures the importance of quantum fluctuations in the field evolution 70A. Albrecht @ UCD 10/3/11

71 Quantum fluctuations during slow roll: A region of one field coherence length ( ) gets a new quantum contribution to the field value from an uncorrelated commoving mode of size in a time leading to a (random) quantum rate of change: Thus measures the importance of quantum fluctuations in the field evolution ( ) 71A. Albrecht @ UCD 10/3/11

72 Quantum fluctuations during slow roll: A region of one field coherence length ( ) gets a new quantum contribution to the field value from an uncorrelated commoving mode of size in a time leading to a (random) quantum rate of change: Thus measures the importance of quantum fluctuations in the field evolution ( ) For realistic perturbations the evolution is very classical 72A. Albrecht @ UCD 10/3/11

73 If this region “produced our observable universe”… A. Albrecht @ UCD 10/3/1173

74 It seems reasonable to assume the field was rolling up here beforehand (classical extrapolation) A. Albrecht @ UCD 10/3/1174

75 A. Albrecht @ UCD 10/3/1175

76 A. Albrecht @ UCD 10/3/1176

77 A. Albrecht @ UCD 10/3/1177

78 A. Albrecht @ UCD 10/3/1178

79 A. Albrecht @ UCD 10/3/1179

80 A. Albrecht @ UCD 10/3/1180

81 A. Albrecht @ UCD 10/3/1181

82 A. Albrecht @ UCD 10/3/1182

83 A. Albrecht @ UCD 10/3/1183

84 A. Albrecht @ UCD 10/3/1184

85 Not at all classical! A. Albrecht @ UCD 10/3/1185

86 Self-reproduction regime Substantial probability of fluctuating up the potential and continuing the inflationary expansion  “Eternal Inflation” A. Albrecht @ UCD 10/3/1186 Linde 1986 and (then) many others

87 Self-reproduction regime Substantial probability of fluctuating up the potential and continuing the inflationary expansion  “Eternal Inflation” A. Albrecht @ UCD 10/3/1187

88 Self-reproduction regime Substantial probability of fluctuating up the potential and continuing the inflationary expansion  “Eternal Inflation” Observable Universe A. Albrecht @ UCD 10/3/1188

89 A. Albrecht @ UCD 10/3/1189

90 A. Albrecht @ UCD 10/3/1190

91 Self-reproduction regime Substantial probability of fluctuating up the potential and continuing the inflationary expansion  “Eternal Inflation” A. Albrecht @ UCD 10/3/1191

92 In self-reproduction regime, quantum fluctuations compete with classical rolling A. Albrecht @ UCD 10/3/1192 Q

93 A. Albrecht @ UCD 10/3/1193 Self-reproduction is a generic feature of any inflaton potential: During inflation

94 A. Albrecht @ UCD 10/3/1194 Self-reproduction is a generic feature of any inflaton potential: During inflation for self- reproduction

95 In self-reproduction regime, quantum fluctuations compete with classical rolling A. Albrecht @ UCD 10/3/1195 Q Linde & Linde

96 Classically Rolling Self-reproduction regime 96A. Albrecht @ UCD 10/3/11

97 New pocket (elsewhere) Classically Rolling Self-reproduction regime 97A. Albrecht @ UCD 10/3/11

98 New pocket (elsewhere) Classically Rolling Self-reproduction regime 98A. Albrecht @ UCD 10/3/11

99 New pocket (elsewhere) Classically Rolling Self-reproduction regime 99A. Albrecht @ UCD 10/3/11

100 New pocket (elsewhere) Classically Rolling Self-reproduction regime 100A. Albrecht @ UCD 10/3/11

101 New pocket (elsewhere) Self-reproduction regime 101A. Albrecht @ UCD 10/3/11

102 New pocket (elsewhere) Classically Rolling Self-reproduction regime 102A. Albrecht @ UCD 10/3/11

103 New pocket (elsewhere) Classically Rolling Self-reproduction regime 103A. Albrecht @ UCD 10/3/11

104 New pocket (elsewhere) Classically Rolling Self-reproduction regime 104A. Albrecht @ UCD 10/3/11

105 New pocket (elsewhere) Reheating Self-reproduction regime 105A. Albrecht @ UCD 10/3/11

106 New pocket (elsewhere) Radiation Era Self-reproduction regime 106A. Albrecht @ UCD 10/3/11

107 Eternal inflation features Most of the Universe is always inflating A. Albrecht @ UCD 10/3/11107

108 Eternal inflation features Most of the Universe is always inflating Leads to infinite Universe, infinitely many pocket universes. The self-reproduction phase lasts forever. A. Albrecht @ UCD 10/3/11108

109 Eternal inflation features Most of the Universe is always inflating Leads to infinite Universe, infinitely many pocket universes. The self-reproduction phase lasts forever (globally). A. Albrecht @ UCD 10/3/11109

110 Eternal inflation features Most of the Universe is always inflating Leads to infinite Universe, infinitely many pocket universes. The self-reproduction phase lasts forever. Inflation “takes over the Universe”, seems like a good theory of initial conditions. A. Albrecht @ UCD 10/3/11110

111 A. Albrecht @ UCD 10/3/11111

112 A. Albrecht @ UCD 10/3/11112

113  Young universe problem  End of time problem  Measure problems 113A. Albrecht @ UCD 10/3/11

114  Young universe problem  End of time problem  Measure problems 114A. Albrecht @ UCD 10/3/11  State of the art: Instead of making predictions, the experts are using the data to infer the “correct measure”

115  Young universe problem  End of time problem  Measure problems 115A. Albrecht @ UCD 10/3/11  State of the art: Instead of making predictions, the experts are using the data to infer the “correct measure”

116  Young universe problem  End of time problem  Measure problems 116A. Albrecht @ UCD 10/3/11  State of the art: Instead of making predictions, the experts are using the data to infer the “correct measure” “True infinity” needed here

117  Young universe problem  End of time problem  Measure problems 117A. Albrecht @ UCD 10/3/11  State of the art: Instead of making predictions, the experts are using the data to infer the “correct measure” “True infinity” needed here Multiply by 10 500 to get landscape story!

118  Young universe problem  End of time problem  Measure problems 118A. Albrecht @ UCD 10/3/11  State of the art: Instead of making predictions, the experts are using the data to infer the “correct measure” “True infinity” needed here  Multiple (∞) copies of “you” in the wavefunction  Page’s “Born Rule Crisis”

119  Young universe problem  End of time problem  Measure problems 119A. Albrecht @ UCD 10/3/11  State of the art: Instead of making predictions, the experts are using the data to infer the “correct measure” “True infinity” needed here

120 A problem has been detected and your calculation has been shut down to prevent damage RELATIVE_PROBABILITY_OVERFLOW If this is the first time you have seen this stop error screen, restart your calculation. If this screen appears again, follow these steps: Check to make sure all extrapolations are justified and equations are valid. If you are new to this calculation consult your theory manufacturer for any measure updates you might need. If the problems continue, disable or remove features of the theory that cause the overflow error. Disable BS options such as self- reproduction or infinite time. If you need to use safe mode to remove or disable components, restart your computation and utilize to select holographic options. 120A. Albrecht @ UCD 10/3/11

121  Young universe problem  End of time problem  Measure problems 121A. Albrecht @ UCD 10/3/11  State of the art: Instead of making predictions, the experts are using the data to infer the “correct measure” “True infinity” needed here Or, just be happy we have equations to solve?

122 OUTLINE 1.Big Bang & inflation basics 2.Eternal inflation 3.de Sitter Equilibrium cosmology 4.Cosmic curvature from de Sitter Equilibrium cosmology A. Albrecht @ UCD 10/3/11122

123 OUTLINE 1.Big Bang & inflation basics 2.Eternal inflation 3.de Sitter Equilibrium cosmology 4.Cosmic curvature from de Sitter Equilibrium cosmology A. Albrecht @ UCD 10/3/11123

124 A. Albrecht @ UCD 10/3/11124

125 A. Albrecht @ UCD 10/3/11125

126 A. Albrecht @ UCD 10/3/11126

127 A. Albrecht @ UCD 10/3/11127

128 A. Albrecht @ UCD 10/3/11128

129 A. Albrecht @ UCD 10/3/11129

130 A. Albrecht @ UCD 10/3/11130 AA: arXiv:1104.3315 AA: arXiv:0906.1047 AA & Sorbo: hep-th/0405270

131 A. Albrecht @ UCD 10/3/11131

132 A. Albrecht @ UCD 10/3/11132

133 A. Albrecht @ UCD 10/3/11133

134 A. Albrecht @ UCD 10/3/11134

135 domination A. Albrecht @ UCD 10/3/11135

136 domination Asymptotic behavior  de Sitter Space A. Albrecht @ UCD 10/3/11136

137 The de Sitter horizon Past horizon of observation event at this time 137A. Albrecht @ UCD 10/3/11 Past Horizon: Physical distance from (comoving) observer of a photon that will reach the observer at the time of the observation.

138 The de Sitter horizon Past horizon of observation event at this time 138A. Albrecht @ UCD 10/3/11 Past Horizon: Physical distance from (comoving) observer of a photon that will reach the observer at the time of the observation.

139 The de Sitter horizon Past horizon of any observation event deep in the de Sitter era 139A. Albrecht @ UCD 10/3/11 Past Horizon: Physical distance from (comoving) observer of a photon that will reach the observer at the time of the observation.

140 Past horizon of any observation event deep in the de Sitter era Future horizon of event at reheating (distance photon has traveled, in SBB). A. Albrecht @ UCD 10/3/11140 Past Horizon: Physical distance from (comoving) observer of a photon that will reach the observer at the time of the observation.

141 Implications of the de Sitter horizon Maximum entropy Gibbons-Hawking Temperature Gibbons & Hawking 1977 A. Albrecht @ UCD 10/3/11141

142 “De Sitter Space: The ultimate equilibrium for the universe? Horizon A. Albrecht @ UCD 10/3/11142

143 Banks & Fischler & Dyson et al. Implications of the de Sitter horizon Maximum entropy Gibbons-Hawking Temperature Only a finite volume ever observed If is truly constant: Cosmology as fluctuating Eqm. Maximum entropy finite Hilbert space of dimension A. Albrecht @ UCD 10/3/11143

144 Banks & Fischler & Dyson et al. Implications of the de Sitter horizon Maximum entropy Gibbons-Hawking Temperature Only a finite volume ever observed If is truly constant: Cosmology as fluctuating Eqm.? Maximum entropy finite Hilbert space of dimension A. Albrecht @ UCD 10/3/11144 dSE cosmology

145 A. Albrecht @ UCD 10/3/11145 Equilibrium Cosmology

146 Rare Fluctuation A. Albrecht @ UCD 10/3/11146

147 Rare Fluctuation A. Albrecht @ UCD 10/3/11147

148 Concept: Realization: “de Sitter Space” A. Albrecht @ UCD 10/3/11148

149 Rare Fluctuation A. Albrecht @ UCD 10/3/11149

150 A. Albrecht @ UCD 10/3/11150 Fluctuating from dSE to inflation : The process of an inflaton fluctuating from late time de Sittter to an inflating state is dominated by the “Guth-Farhi process” A “seed” is formed from the Gibbons-Hawking radiation that can then tunnel via the Guth-Farhi instanton. Rate is well approximated by the rate of seed formation: Seed mass:

151 A. Albrecht @ UCD 10/3/11151 Fluctuating from dSE to inflation : The process of an inflaton fluctuating from late time de Sittter to an inflating state is dominated by the “Guth-Farhi process” A “seed” is formed from the Gibbons-Hawking radiation that can then tunnel via the Guth-Farhi instanton. Rate is well approximated by the rate of seed formation: Seed mass: Small seed can produce an entire universe  Evade “Boltzmann Brain” problem

152 A. Albrecht @ UCD 10/3/11152 Fluctuating from dSE to inflation : The process of an inflaton fluctuating from late time de Sittter to an inflating state is dominated by the “Guth-Farhi process” A “seed” is formed from the Gibbons-Hawking radiation that can then tunnel via the Guth-Farhi instanton. Rate is well approximated by the rate of seed formation: Seed mass: See important new work on G-F process by Andrew Ulvestad & AA

153 degrees of freedom temporarily break off to form baby universe: A. Albrecht @ UCD 10/3/11153 time Eqm. Seed Fluctuation Tunneling Evolution Inflation Radiation Matter de Sitter Recombination

154 A. Albrecht @ UCD 10/3/11154 Implications of finite Hilbert space Recurrences Eqm. Breakdown of continuum field theory

155 A. Albrecht @ UCD 10/3/11155 Implications of finite Hilbert space Recurrences Eqm. Breakdown of continuum field theory

156 A. Albrecht @ UCD 10/3/11156 Implications of finite Hilbert space Recurrences Eqm. Breakdown of continuum field theory

157 A. Albrecht @ UCD 10/3/11157 This much inflation fills one de Sitter horizon

158 A. Albrecht @ UCD 10/3/11158 This much inflation fills more than one de Sitter horizon, generating total entropy and affecting regions beyond the horizon of the observer

159 A. Albrecht @ UCD 10/3/11159 In dSE cosmology this region is unphysical. Breakdown of continuum field theory prevents inflation from filling more than one de Sitter horizon

160 A. Albrecht @ UCD 10/3/11160 In dSE cosmology this region is unphysical. Breakdown of continuum field theory prevents inflation from filling more than one de Sitter horizon Equivalent to Banks-Fischler holographic constraint on number of e-foldings of inflation (D Phillips 2011)

161 A. Albrecht @ UCD 10/3/11161 Fluctuating from dSE to inflation : The process of an inflaton fluctuating from late time de Sittter to an inflating state is dominated by the “Guth-Farhi process” A “seed” is formed from the Gibbons-Hawking radiation that can then tunnel via the Guth-Farhi instanton. Rate is well approximated by the rate of seed formation Seed mass: Large exponentially favored  saturation of dSE bound

162 A. Albrecht @ UCD 10/3/11162 dSE bound on inflation given by past horizon

163 A. Albrecht @ UCD 10/3/11163 dSE bound on inflation given by past horizon A variety of inflation models, all saturating the dSE bound

164 OUTLINE 1.Big Bang & inflation basics 2.Eternal inflation 3.de Sitter Equilibrium cosmology 4.Cosmic curvature from de Sitter Equilibrium cosmology A. Albrecht @ UCD 10/3/11164

165 OUTLINE 1.Big Bang & inflation basics 2.Eternal inflation 3.de Sitter Equilibrium cosmology 4.Cosmic curvature from de Sitter Equilibrium cosmology A. Albrecht @ UCD 10/3/11165

166 A. Albrecht @ UCD 10/3/11166 dSE Cosmology and cosmic curvature The Guth-Farhi process starts inflation with an initial curvature set by the curvature of the Guth-Farhi Bubble Inflation dilutes the curvature, but dSE cosmology has a minimal amount of inflation

167 Friedmann Eqn. A. Albrecht @ UCD 10/3/11167

168 A. Albrecht @ UCD 10/3/11168 Banks & Fischler & Dyson et al. Evolution of curvature radius

169 A. Albrecht @ UCD 10/3/11169 Curvature radius set by initial curvature Banks & Fischler & Dyson et al. Evolution of curvature radius

170 A. Albrecht @ UCD 10/3/11170 A variety of inflation models, all saturating the dSE bound Curvature radius set by initial curvature Evolution of curvature radius

171 A. Albrecht @ UCD 10/3/11171 A variety of inflation models, all saturating the dSE bound Curvature radius set by initial curvature is given by this gap Evolution of curvature radius

172 A. Albrecht @ UCD 10/3/11172 AA: arXiv:1104.3315

173 A. Albrecht @ UCD 10/3/11173 dSE Cosmology and cosmic curvature The Guth-Farhi process starts inflation with an initial curvature set by the curvature of the Guth-Farhi bubble Inflation dilutes the curvature, but dSE cosmology has a minimal amount of inflation

174 A. Albrecht @ UCD 10/3/11174 Image by Surhud More Predicted from dSE cosmology is: Independent of almost all details of the cosmology Just consistent with current observations Will easily be detected by future observations

175 A. Albrecht @ UCD 10/3/11175 Image by Surhud More Predicted from dSE cosmology is: Independent of almost all details of the cosmology Just consistent with current observations Will easily be detected by future observations Work in progress on expected values of (Andrew Ulvestad & AA)

176 A. Albrecht @ UCD 10/3/11176 Conclusions The search for a “big picture” of the Universe that explains why the region we observe should take this form has proven challenging, but has generated exciting ideas. We know we can do science with the Universe It appears that there is something right about cosmic inflation dSE cosmology offers a finite alternative to the extravagant (and problematic) infinities of eternal inflation Predictions of observable levels of cosmic curvature from dSE cosmology will give an important future test

177 A. Albrecht @ UCD 10/3/11177 Conclusions The search for a “big picture” of the Universe that explains why the region we observe should take this form has proven challenging, but has generated exciting ideas. We know we can do science with the Universe It appears that there is something right about cosmic inflation dSE cosmology offers a finite alternative to the extravagant (and problematic) infinities of eternal inflation Predictions of observable levels of cosmic curvature from dSE cosmology will give an important future test

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