Anisotropic power-law inflation for the S\'aez-Ballester theory non-minimally coupled to a vector field

In this paper, we would like to examine whether the S\'aez-Ballester theory admits stable and attractive Bianchi type I inflationary solutions in the presence of a non-minimal coupling between scalar and vector fields such as $f^2(\phi)F_{\mu\nu}F^{\mu\nu}$. As a result, such a solution will be shown to exist within this theory for a suitable setup of fields. However, the corresponding tensor-to-scalar ratio of this solution turns out to be higher than the latest observational value of the Planck satellite (Planck 2018) due to the fact that $c_s$, the corresponding speed of sound of scalar perturbations of the S\'aez-Ballester theory, turns out to be one. This result indicates an important hint that the speed of sound, $c_s$, could play an important role in making the corresponding non-canonical anisotropic inflation cosmologically viable in the light of the Planck 2018 data. To be more specific, we will point out that any modifications of the S\'aez-Ballester theory having $c_s \sim 0.1$ will have a great potential to be highly consistent with the Planck 2018 data.
Comment: 30 pages, 5 figures. Comments are welcome