Quantum-to-classical transition for ekpyrotic perturbations

Battarra, Lorenzo; Lehners, Jean-Luc

doi:10.1103/physrevd.89.063516

Cited by 37 publications

(29 citation statements)

References 60 publications

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“…flatness and horizon problems) can be resolved. Moreover, simple extensions can lead to the amplification of scalar quantum fluctuations in order to produce classical density perturbations in agreement with (trustworthy) cosmic microwave background measurements [8][9][10][11][12][13]. If such an ekpyrotic phase is followed by a bounce into a phase of radiation dominated expansion [14][15][16][17][18], then these models provide an interesting alternative cosmological history compared to the popular assumption of an early inflationary phase.…”

mentioning

confidence: 75%

“…Thus, we can ignore these saddle points here. Second, it is important to realise that the minisuperspace approximation is justified for the contracting histories we are interested in: during a single-field ekpyrotic phase, gauge-invariant curvature perturbations are not amplified [11], and consequently do not destabilise the ekpyrotic scaling solution. This is another manifestation of the ekpyrotic attractor mechanism.…”

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confidence: 99%

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On the creation of the universe via ekpyrotic instantons

Battarra

Lehners

2015

Physics Letters B

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confidence: 75%

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confidence: 99%

On the creation of the universe via ekpyrotic instantons

Battarra

Lehners

2015

Physics Letters B

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“…During the ekpyrotic phase, curvature perturbations at linear order are not amplified [12,35], nor are they sourced by the entropy perturbations. However, at second order curvature perturbations can be sourced by the entropy fluctuations [13].…”

Section: (No) Non-gaussianity During the Ekpyrotic Phasementioning

confidence: 99%

“…In the presence of a second scalar field χ with a canonical kinetic term and an unstable direction in the potential V ;χχ < 0, nearly scale-invariant (quantum) entropy fluctuations get amplified to become classical perturbations, which can then be converted into curvature perturbations before the Big Bang [9][10][11][12]. In this "entropic mechanism" the spectrum is predicted to be close to scale invariant, while the local bispectrum can take on a range of values [13][14][15], including the values favored by PLANCK [3,16].…”

Section: Introductionmentioning

confidence: 99%

Ekpyrotic perturbations with small non-Gaussian corrections

2014

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The entropic mechanism for producing nearly scale-invariant density perturbations in a contracting ekpyrotic universe relies on having an unstable scalar potential. Here we develop a variant of this mechanism (recently proposed by Qiu, Gao and Saridakis, and by Li), in which there exists a nontrivial coupling between adiabatic and entropic fields, and where an unstable potential is not required. In the model nearly scale-invariant entropy perturbations are generated first. Remarkably, we find that the bispectrum of these perturbations vanishes, with the values of the non-Gaussianity parameters of local, equilateral and orthogonal type all exactly zero. Subsequently, the entropy perturbations can be converted into curvature perturbations by a variety of mechanisms. The bispectrum of the curvature perturbations depends on the nonlinearity of the conversion process and is thus more model-dependent-however, for an efficient conversion process the final bispectrum remains small. The only distinguishing feature compared to single-field slow-roll inflationary models is that the ekpyrotic phase does not generate significant primordial gravitational waves. Thus the present model provides a perfect match to current data from the PLANCK satellite.

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“…The occurrence of blueshift scalar perturbation is nonetheless a minor flaw of ekpyrotic theory which can be easily corrected. Hence, new ekpyrotic theory considers multiple scalar field and successfully generated a scalar spectrum which is scale invariant and slightly redshifted [16][17][18][19][20][21][22][23][24][25][26][27][28][29][30]. Producing primordial gravitational waves sourced by the gauge field in the ekpyrotic scenario was also studied in [31].…”

Section: Jhep06(2018)041mentioning

confidence: 99%

No-go theorems for ekpyrosis from ten-dimensional supergravity

Uzawa

2018

J. High Energ. Phys.

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In this note we investigate whether the new ekpyrotic scenario can be embedded into ten-dimensional supergravity. We use that the scalar potential obtained from flux compactifications of type II supergravity with sources has a universal scaling with respect to the dilaton and the volume mode. Similar to the investigation of inflationary models, we find very strong constraints ruling out ekpyrosis from analysing the fast-roll conditions. We conclude that flux compactifications tend to provide potentials that are neither too flat and positive (inflation) nor too steep and negative (ekpyrosis).

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Quantum-to-classical transition for ekpyrotic perturbations

Cited by 37 publications

References 60 publications

On the creation of the universe via ekpyrotic instantons

On the creation of the universe via ekpyrotic instantons

Ekpyrotic perturbations with small non-Gaussian corrections

No-go theorems for ekpyrosis from ten-dimensional supergravity

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