Reheating constraints on mutated hilltop inflation

Abstract

Future research studies of cosmic microwave background polarization seems likely to provide a more improved upper bound of r 0.03 on the tensor-to-scalar ratio(r). In our work, we have done the reheating study of mutated hilltop inflation(MHI), a model falling in the broad category of small field inflation. We have parameterized reheating in terms of various parameters like reheating duration Nrh, reheating temperature Trh and effective equation of state ω rh using observationally viable values of scalar power spectrum amplitude As and scalar spectral index ns. In our study, working over a range of ω rh, we found that the MHI potential is well consistent with combined Planck and BK18 observations for ω rh > 0 within a particular range of model's parameter space and the lower values of the model parameter in MHI generate considerably smaller r compared to normal hilltop potential without any incompatibility of ns with observational data, making MHI a better choice in accordance to recent and future studies.