Inflation from cosmological constant and nonminimally coupled scalar

Publication date

2015-08-04

Authors

Glavan, D.ISNI 0000000506582133
Marunovic, AnjaISNI 0000000443852916
Prokopec, TomislavISNI 0000000400683833

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Abstract

We consider inflation in a universe with a positive cosmological constant and a nonminimally coupled scalar field, in which the field couples both quadratically and quartically to the Ricci scalar. When considered in the Einstein frame and when the nonminimal couplings are negative, the field starts in slow roll and inflation ends with an asymptotic value of the principal slow-roll parameter, epsilon(E) = 4/3. Graceful exit can be achieved by suitably (tightly) coupling the scalar field to matter, such that at late time the total energy density reaches the scaling of matter, epsilon(E) = epsilon(m) Quite generically the model produces a red spectrum of scalar cosmological perturbations and a small amount of gravitational radiation. With a suitable choice of the nonminimal couplings, the spectral slope can be as large as n(s) similar or equal to 0.955, which is about one standard deviation away from the central value measured by the Planck satellite. The model can be ruled out by future measurements if any of the following is observed: (a) the spectral index of scalar perturbations is ns > 0.960; (b) the amplitude of tensor perturbations is above about r similar to 10(-2); (c) the running of the spectral index of scalar perturbations is positive.

Keywords

DARK ENERGY

Citation

Glavan, D, Marunovic, A & Prokopec, T 2015, 'Inflation from cosmological constant and nonminimally coupled scalar', Physical Review. D, Particles, Fields, Gravitation and Cosmology, vol. 92, no. 4, 044008. https://doi.org/10.1103/PhysRevD.92.044008