The Big Crunch/Big Bang Transition. 1. Measure for inflation 2. Passing through singularities - no beginning proposal
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1 The Big Crunch/Big Bang Transition Neil Turok, Perimeter Institute 1. Measure for inflation 2. Passing through singularities - no beginning proposal
2 2
3 inflation * initial conditions * fine-tuned potentials * ~ ; I ~10-10 V( )
4 Does inflation succeed in its claims? Generic initial conditions -> * big * expanding * flat * FRW universe * w/ scale-free perts 4
5 Need a measure on space of cosmologies ( multiverse ) 5
6 Focus on a very simple setup where sensible measure (invariant under all symmetries) exists and gives an unambiguous result. 6
7 Example: slow-roll inflation, with V min =0 (eg m 2 2 ) k=-1 FRW, 3-space compactified to U * a mathematical device to keep everything finite: the results do not depend on the compactification volume U * but actually has been advocated as a particularly natural setting for chaotic inflation
8 I will be generous to inflation and just assume homogeneity+isotropy 8
9 2-parameter family of solutions with an initial singularity: asymptotically flat singularity
10 Hamiltonian, time reversal invariant p H 2 2 pa φ 3 ( pa, a, pφ, φ) = + 3 Ua + + Ua V ( φ) 3 Canonical measure ω with c ω c Σ Σ a 12Ua 2Ua = dp da + dp dφ H=0 φ = p Liouville Gibbons, Hawking, Stewart Hawking, Page Hollands, Wald Kofman, Linde, Mukhanov Gibbons, NT Carroll, Tan pierced once by every trajectory 10
11 Universes = curves in phase space H φ & φ φ Σ
12 Recall: flat space Gibbs ensemble Maximise entropy subject to S = piln p E = p E (assuming E i i i i i i bb) But in GR, H=0 on all physical states so cannot constrain its expectation value With no constraint, surface Σ is not compact What do we do? Need to impose some restriction on universes
13 I ll focus on cosmologies which are asymptotically flat to the future (cf holographic measures) Hence consider k=-1, zero : at large a, matter diluted away -> gravity becomes negligible, expansion becomes adiabatic Every trajectory ends on adiabat S(E,a)= const Natural to label an ensemble of cosmologies by their asymptotic entropy S Meaningful quantity is P S ( N ) I
14 E S ( = Ua 3 ρ φ ln( ) m here) a
15 Canonical measure for inflation P S = ( N( N) ) I I V = m φ N I e 3N I N I 1S 2 N I m Pl =,max 3 3 ln( ) m
16 * Because statistical ensemble defined in asymptotic region where gravity becomes unimportant: the future, inflationary attractor becomes repeller * with this canonical measure, slow-roll/`chaotic inflation cannot be considered an explanation for the observed flatness of the cosmos * makes precise a problem identified by Penrose long ago * N fields (eg N-flation) makes problem worse * can be extended to landscape with inclusion of complex solutions describing tunneling: false vacua don t help
17 Ways out (other suggestions welcome!): 1) Inhomogeneities (!) 2) Modify measure with unobservable volume factors (!) 3) Evolve forwards from some initial ensemble: i) chaotic ii) asymp. flat region in the past -> solve singularity problem 17
18 What if the singularity was a bounce? A cyclic scenario becomes feasible, in which inflation may be entirely unnecessary Remainder of this talk: long wavelength features may be calculable using only 4d effective theory I. Bars, S-H Chen, P. Steinhardt, NT arxiv: [hep-th] NT to appear (2012)
19 Example: Einstein-scalar gravity Initial conditions: contracting, perturbed flat FRW universe If V( ) bounded below (eg inflation, ekpyrotic), then it becomes negligible as singularity nears KE of scalar dominates, removes mixmaster chaos, ensures smooth ultralocal (locally Kasner) dynamics Belinski+Khalatnikov+Lifshitz, Anderson+Rendall 19
20 Near singularity, Einstein eqns reduce ultralocally to: Anisotropy following from the effective action: Parameterises radiation canonical momenta for, 1, 2 conserved 20
21 lift to a Weyl-invariant theory i.e. two conformally coupled scalars w/opp sign L - scalar ghost removed by gauge symmetry: g -> 2 g, -> 1, s-> 1 s - gravitational trace anomaly cancels - global O(1,1) symmetry: 2 -s 2 = 2 -s 2 cf classical shift symmetry in string theory at tree level in g s, but to all orders in 21
22 Gauges: 1. Einstein gauge 2 -s 2 =6-2 : 2. Supergravity-like gauge = 0 =const: cf N=1 SUGRA models 3. gauge : Detg = -1:
23 4. String frame gauge
24 Special quantity: Weyl and O(1,1)-invariant: - obeys Friedmann-like equation: ( ) - analytic at generic cosmic singularities
25 Weyl- extended superspace σ = ln( s γ antigravity gravity antigravity gravity σ a E φ γ
26 Isotropic case: 1 = 2 =0 Generic case w/anisotropy: Weyl symm restored at gravity/antigravity transition 26
27 gs antigravity phase gs 0, sim y 1,2 27
28 Uniqueness of solution 28
29 unique extension of, 1,2 to complex plane τ antigravity : : : : : : : X :X 2τ eq 29
30 Also, as approach singularities, action has asymptotic special conformal O(4,2) symmetry: matching its (conserved) generators across singularities yields this as the unique solution 30
31 linear perturbations τ radiation -dominated universe deform contour to infinity on Riemann sphere X:X h : e τ ikτ Vac in = vac out No particle production
32 Antigravity region -> unstable? : -K : Negative energy graviton : : k K-k Positive energy photons (only consider k-modes for which low-energy effective action is valid) No: asymptotic states are positive energy, amplitude : dτ τ e i( K+ k+ K k ) τ = 0 (Jordan) 32
33 nonlinear perturbations τ X:X Domain of Validity of Low-energy Effective Theory Trivial monodromy -> unique propagation
34 If: 1) low-energy effective theory valid along solution contour 2) matter consists of radiation, T λ 0 λ = which can be treated as perfect fluid τ 1 Double series in pert amplitude, -> trivial monodromy around singularity! -> propagation of long wavelength modes across singularity is actually independent of microphysics at the singularity! 34
35 Conclusions * Unique continuation of classical 4d GR-scalar effective theory around cosmic singularities * Surprisingly, it involves a brief antigravity phase * Particle production in modes for which effective theory is valid is under control (massive fields -> finite particle production) * Can be used to study cosmological ensembles defined by S in the past, to compare inflation, ekpyrotic/cyclic theories (in progress) 35
36 Happy 70 Stephen! 36
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