2002
DOI: 10.1088/0264-9381/19/4/302
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Scalar perturbations during multiple-field slow-roll inflation

Abstract: We calculate the scalar gravitational and matter perturbations in the context of slow-roll inflation with multiple scalar fields, that take values on a (curved) manifold, to first order in slow roll. For that purpose a basis for these perturbations determined by the background dynamics is introduced and multiple field slow-roll functions are defined. To obtain analytic solutions to first order, the scalar perturbation modes have to be treated in three different regimes. Consistency of the various approximation… Show more

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Cited by 253 publications
(372 citation statements)
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“…These are formally the same equations as those of linear perturbation theory for the Sasaki-Mukhanov variables with the k 2 terms dropped [12]. Note that although equation (23) …”
Section: Long Wavelength Dynamicsmentioning
confidence: 94%
“…These are formally the same equations as those of linear perturbation theory for the Sasaki-Mukhanov variables with the k 2 terms dropped [12]. Note that although equation (23) …”
Section: Long Wavelength Dynamicsmentioning
confidence: 94%
“…For inflaton trajectories in a curved field space, the covariant formalism of multi-field inflation [60,[62][63][64][65] provides a powerful tool to describe the background dynamics and perturbations. Consider a turning trajectory with ρ = ρ 0 , then the field velocity of the canonically normalized inflation is given byφ 2 = G abφ aφb = f (ρ)θ 2 , where the dot denotes the derivative with respect to the cosmic time.…”
Section: The Multi-field Analysis Of the Massive Fieldmentioning
confidence: 99%
“…Thus, 8 An alternative notation to describe turns consists of defining the dimensionless parameter η ⊥ =θ/H, which was originally introduced in ref. [46,47], and its notation stems from the definition of a vector η a ≡ −φ a 0 /(Hφ0) [48] in order to extend the definition of the usual η parameter to the multi-field case. In this setting, η ⊥ is simply the projection of η a along the normal direction N a .…”
Section: Parametrizing Perturbationsmentioning
confidence: 99%