Single versus multifield scalar potentials from string theory
Abstract
In this work, we investigate the properties of string effective theories with scalar field(s) and a scalar potential. We first claim that in most examples known, such theories are multifield, with at least 2 non-compact field directions; the few counter-examples appear to be very specific and isolated. Such a systematic multifield situation has important implications for cosmology. Characterising properties of the scalar potential is also more delicate in a multifield setting. We provide several examples of string effective theories with , where the latter admits an asymptotically flat direction along an off-shell field trajectory: in other words, there exists a limit for which . It is thus meaningless to look for a lower bound to this single field quantity in a multifield setting; the complete gradient is then better suited. Restricting to on-shell trajectories, this question remains open, especially when following the steepest descent or more generally a gradient flow evolution. Interestingly, single field statements in multifield theories seem less problematic for .
Cite
@article{arxiv.2501.17775,
title = {Single versus multifield scalar potentials from string theory},
author = {David Andriot and Muthusamy Rajaguru and George Tringas},
journal= {arXiv preprint arXiv:2501.17775},
year = {2025}
}
Comments
Details of the group manifold example can be found in the notebook given as ancillary file. v2: minor modifications