English

Reheating constraints on K-inflation

Cosmology and Nongalactic Astrophysics 2021-10-27 v3 General Relativity and Quantum Cosmology High Energy Physics - Phenomenology High Energy Physics - Theory

Abstract

In this work we revisit constraints on K-inflation with DBI kinetic term and power-law kinetic term from reheating. For DBI kinetic term we choose monomial potentials, VϕnV\propto \phi^n with n=2/3,1,2n=2/3\,,1\,,\,2 and 44, and natural inflaton potential, and for power-law kinetic term we choose quadratic, quartic and exponential potentials. The phase of reheating can be parameterized in terms of reheating temperature TreT_{re}, number of e-folds during reheating NreN_{re} and effective equation of state during reheating wrew_{re}. These parameters can be related to the spectral index nsn_s and other inflationary parameters depending on the choice of inflaton kinetic term and potential. By demanding that wrew_{re} should have a finite range and TreT_{re} should be above electroweak scale, one can obtain the bounds on nsn_s that can provide bounds on tensor-to-scalar ratio rr. We find, for K-inflation with DBI kinetic term and quadratic and quartic potentials, that the upper bound on rr for physically plausible value of 0wre0.250\le w_{re} \le 0.25 is slightly larger than the Planck-2018 and BICEP2/Keck array bound, and for n=2/3n=2/3 and 11, the reheating equation of state should be less than 00 to satisfy Planck-2018 joint constraints on nsn_s and rr. However, natural inflation with DBI kinetic term is compatible with Planck-2018 bounds on rr and joint constraints on nsn_s and rr for physically plausible range 0wre0.250 \le w_{re}\le 0.25. The quadratic and quartic potential with power-law kinetic term are also compatible with Planck-2018 joint constraints on nsn_s and rr for 0wre10\le w_{re} \le 1. However, for exponential potential with power-law kinetic term, the equation of state during reheating wrew_{re} should be greater than 11 for rnsr-n_s predictions to lie within 68%68\%C.L. of joint constraints on nsn_s and rr from Planck-2018 observations.

Cite

@article{arxiv.2103.01797,
  title  = {Reheating constraints on K-inflation},
  author = {Pooja Pareek and Akhilesh Nautiyal},
  journal= {arXiv preprint arXiv:2103.01797},
  year   = {2021}
}

Comments

Version to appear in Physical Review D

R2 v1 2026-06-23T23:39:56.436Z