4.7 Article

Viable intermediate inflation in the mimetic DBI model

Journal

EUROPEAN PHYSICAL JOURNAL C
Volume 81, Issue 9, Pages -

Publisher

SPRINGER
DOI: 10.1140/epjc/s10052-021-09619-2

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We studied intermediate inflation in the mimetic Dirac-Born-Infeld model and found that in certain parameter ranges, ghost and gradient instabilities can be avoided. We investigated scalar spectral index, tensor spectral index, and tensor-to-scalar ratio, comparing the results with observational data and obtaining observationally viable perturbation and non-Gaussianity parameters within specific parameter values.
We study the intermediate inflation in the mimetic Dirac-Born-Infeld model. By considering the scale factor as a = a(0) exp(bt(beta)), we show that in some ranges of the intermediate parameters b and beta, the model is free of the ghost and gradient instabilities. We study the scalar spectral index, tensor spectral index, and the tensor-to-scalar ratio in this model and compare the results with Planck2018 TT, TE, EE + lowE + lensing + BAO + BK14 data at 68% and 95% CL. In this regard, we find some constraints on the intermediate parameters that lead to the observationally viable values of the perturbation parameters. We also seek the non-Gaussian features of the primordial perturbations in the equilateral configuration. By performing the numerical analysis on the nonlinearity parameter in this configuration, we show that the amplitude of the non-Gaussianity in the intermediate mimetic DBI model is predicted to be in the range -16.7 < f(equil) < -12.5. We show that, with 0 < b <= 10 and 0.345 < beta < 0.387, we have an instabilities-free intermediate mimetic DBI model that gives the observationally viable perturbation and non-Gaussianity parameters.

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