Primordial Magnetic Field Generated in Natural Infation

Abstract

We study the simple gauge invariant model f2FF as a way to generate primordial magnetic fields (PMF) in Natural Inflation (NI). We compute both magnetic and electric spectra generated by the f2FF model in NI for different values of model parameters and find that both de Sitter and power law expansion lead to the same results at sufficiently large number of e-foldings. We also find that the necessary scale invariance property of the PMF cannot be obtained in NI in first order of slow roll limits under the constraint of inflationary potential, V( 0 ) 0. Furthermore, if this constraint is relaxed to achieve scale invariance, then the model suffers from the backreaction problem for the co-moving wave number, k 8.0× 10-7 Mpc-1 and Hubble parameter, Hi 1.25× 10-3 MPl. The former can be considered as a lower bound of k and the later as an upper bound of Hi for a model which is free from the backreaction problem. Further, we show that there is a narrow range of the height of the potential around ≈ 0.00874MPl and of k around k 0.0173Mpc - 1, at which the energy of the electric field can fall below the energy of the magnetic field. The range of k lies within some observable scales. However, the relatively short range of k presents a challenge to the viability of this model.