The multi-field facets of...
Transcript of The multi-field facets of...
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The multi-field facets of inflation
David Langlois(APC, Paris)
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Introduction• After 25 years of existence, inflation has been so far very
successful to account for observational data.
• The nature of the inflaton remains unknown however.
• The data are compatible with the simplest models of inflation (standard single field inflation).
• Many high energy physics models involve several scalar fields.
• If several scalar fields are light enough during inflation multi-field inflation !
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Outline
1. Standard single field inflation
2. Linear perturbations in multi-field inflation
3. The curvaton scenario
4. Non-linear perturbations (non-Gaussianities)
5. Non-standard kinetic terms (multi-DBI inflation)
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Inflation
• A period of acceleration in the early Universe
• Inflation solves the horizon problem(and flatness, etc …).
• Inflation also provides an explanation for the origin of the primordial perturbations, which will give birth to structures in the Universe.
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Scalar field inflation
• How to get inflation ?
• Scalar field
• Homogeneous equations
• Slow-roll motion
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Slow-roll regime
• Slow-roll equations
• Slow-roll parameters
• Number of e-folds
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WMAP
Planck
Link with observations ?
• Power spectra of scalar perturbations• Non-gaussianities• Tensor perturbations…
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Cosmological perturbations
• Perturbed metric (longitudinal gauge, scalar perts)
• Curvature perturbation on uniform energy density hypersurfaces
• On large scales, is conserved for adiabatic perturbations (such as )
[Bardeen et al (1983)]
where : “local” number of e-folds
[ D.L. & Vernizzi, PRL ’05; PRD ’05 ]and
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Cosmological perturbations
• Comoving curvature perturbation
• For a scalar field:
• On large scales, is conserved for adiabatic perturbations (such as )
on large scales
: scalar field perturbationin the flat gauge
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Single field inflation
• For standard single field inflation, the vacuum quantum fluctuations of the scalar field are amplified at Hubble crossing
• Since is conserved on large scales,it is sufficient to compute at Hubble crossing.
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Scalar perturbations from inflation
• The spectrum is quasi-scale invariant …
• but not quite …
• Deviation from flat spectrum
WMAP5:
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Gravitational waves from inflation
• Metric fluctuations: gravitational waves
• Spectrum:
• Scale dependence:
• Consistency relation:
2 polarisations
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Multi-field inflation
• High energy physics models usually involve many scalar fields.
• If several scalar fields are light enough during inflation, one must deal with multi-field inflation !– Several inflatons
– A single inflaton with spectator light scalar field(s)e.g. the curvaton scenario
with
, or more generally,
(like in DBI inflation)
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Multi-field inflation
• is not conserved on large scales, in general.
• This can be seen as a transfer between the entropy (or isocurvature) modes and the adiabatic (or curvature) mode.
[ Starobinsky, Yokayama ’95 ]
Gordon et al. ’00Groot Nibbelink & Van Tent ‘00
[ Non linear extension: DL & Vernizzi ’06 ]
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Numerical analysis
Double inflation model
Lalak, DL, Pokorski, Turzynski ‘07
Can be solved analytically …[ Polarski & Starobinsky ’92 ‘94; DL’99]
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Another example: roulette inflation[ Conlon & Quevedo ‘05
Bond, Kofman, Prokushkin, Vaudevrange ’06 ]
with
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Another example: roulette inflation
Lalak, DL, Pokorski, Turzynski ‘07
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After inflation• In some models, the isocurvature perturbations could
survive after inflation
• In the radiation era:– Adiabatic / curvature perturbations
– Entropy / isocurvature perturbations
• They can be related to the perturbations during inflation:Correlation between adiabatic and isocurvature perts !
DL ‘99
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The curvaton scenario
Light scalar field during inflation (when H > m)
which later oscillates (when H < m), and finally decays.
Mollerach (1990); Linde & Mukhanov (1997) ;Enqvist & Sloth; Lyth & Wands; Moroi & Takahashi (2001)
Decay
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Perturbations from the curvaton
• During inflation: fluctuations with
• Oscillating phase:
• Decay:
• Isocurvature perturbations if curvaton decays partly into CDM
if the curvaton dominates when it decays.
[ neglecting previous perts ]
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Mixed inflaton-curvaton scenario
• Both the inflaton and curvaton fluctuations contribute to the CMB
• If , one finds
Two limits:– pure curvaton case
– secondary inflaton case
[ DL, Vernizzi ’04 ]
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Observational constraints
• Adiabatic and isocurvature produce different peak structures in the CMB
• Sachs-Wolfe effect:
Impact on the CMB depends on the correlation[ D.L. & Riazuelo ’99 ]
• Present constraints [ WMAP5: Komatsu et al ‘08]
[ DL ’99 ]
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Non-Gaussianities
• Bispectrum
One also uses the fNL parameter
• Link with inflationUsing the δN-formalism [ Lyth & Rodriguez ’05 ]
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Non-Gaussianities
• If the scalar field perturbations are quasi-Gaussian, one finds, using
• Observational constraints
Pure curvaton:
[ WMAP5: Komatsu et al ’08 ]
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Generalized multi-field inflation
• Generalized Lagrangians
– particular case:
• Generalization of single field k-inflation
– includes DBI inflation
with
[ DL, S. Renaux-Petel, D.Steer& T. Tanaka,’ 08]
with
[Armendariz-Picon, Damour, Mukhanov ’99]
[Silverstein, Tong ’04; Alishahiha, Silverstein, Tong’04]
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DBI inflation
– Brane inflation: inflaton as the distance between two branes
effective 4D scalar
– Moving D3-brane in a higher-dimensional background
Its dynamics is governed by a Dirac-Born-Infeld action
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DBI inflation
• One dimensional effective motion (radial motion)
• In the homogeneous case,
1. Slow-roll regime:
2. “Relativistic” regime:[Silverstein, Tong ’04; Alishahiha, Silverstein, Tong’04]
[ KKLMMT ]
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Multi-field DBI inflation
• Take into account the other internal coordinatesmulti-field effective description !
• Homogeneous case
[ DL, Renaux-Petel, Steer & Tanaka, PRL ‘08 ]
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Linear perturbations: general case
• Extend the analysis by Garriga & Mukhanov ‘99
• Scalar degrees of freedom = scalar field fluctuations in the flat gauge
• Their dynamics is described by the second order action
where , etc
and the coefficients and depend on the background values of the fields and of the derivatives of P.
[ DL, Renaux-Petel, Steer & Tanaka, PRD ‘08 ]
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DBI case
• Lagrangian
• 2nd order action
• Adiabatic/entropy decomposition
with Effective speed of sound
Kinetic terms
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Quantum fluctuations
• Canonically normalized variables
• Second order action
with
• Equations of motion (assuming and negligible)
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Quantum fluctuations
• In the slow-varying limit:
Amplification at sound horizon !
Entropy modes are enhanced !
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Primordial spectra
• Relating to the curvature perturbation
• In the multi-field case, can evolve on large scales
• Tensor modes
[ same as single-field k-inflation:Garriga & Mukhanov ’99 ]
single-field limit [Garriga & Mukhanov]
standard multi-field[Wands et al. ‘02]
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Non-Gaussianities
• In the small limit, the dominant terms in the third order action are
• Three-point function
• Writing
one finds
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ConclusionsMulti-field inflation generates entropy perturbations in addition to adiabatic perturbations.
Specific signatures with respect to single field inflation !
- Entropy perturbations affect the evolution of the curvature perturbation after Hubble crossing !
- At the linear level: power spectrum- At the non-linear level: non-Gaussianities
- Depending on the models (reheating), the entropy perturbation mode can survive after inflation, and can be correlated with the adiabatic mode.An isocurvature contribution in the primordial perturbations can in principle be detected in cosmological observations.
additional window on the early universe physics