English

A Strong Scalar Weak Gravity Conjecture and Some Implications

High Energy Physics - Theory 2019-10-02 v2 High Energy Physics - Phenomenology

Abstract

We propose a new version of the scalar Weak Gravity Conjecture (WGC) which would apply to any scalar field coupled to quantum gravity. For a single scalar it is given by the differential constraint V(2V2/VV)Mp2V''\leq (2V'''^2/V''-V'''')M_{\text{p}}^2. It corresponds to the statement that self-interactions of a scalar must be stronger than gravity for any value of the scalar field. We find that the solutions which saturate the bound correspond to towers of extremal states with mass m2(ϕ)=m02/((R/m)2+1/(nR)2)m^2(\phi)=m_0^2/((R/m)^2+1/(nR)^2), with R2=eϕR^2=e^\phi, consistent with the emergence of an extra dimension at large or small RR and the existence of extended objects (strings). These states act as WGC states for the scalar ϕ\phi. It is also consistent with the distance swampland conjecture with a built-in duality symmetry. From this constraint one can derive several swampland conjectures. In particular one finds that an axion potential is only consistent if fMpf\leq M_{\text{p}}. The conjecture has far reaching consequences and applies to several interesting physical systems: i) Among chaotic inflation potentials only those asymptotically linear may survive. ii) If applied to the radion of the circle compactification of the Standard Model to 3D, the constraint implies that the 4D cosmological constant scale must be larger than the mass of the lightest neutrino, which must be Dirac and in normal hierarchy. iii) It also constraints simplest moduli fixing string models. The simplest KKLT model is compatible with the constraints but the latter may be relevant for some choices of parameters.

Keywords

Cite

@article{arxiv.1903.08878,
  title  = {A Strong Scalar Weak Gravity Conjecture and Some Implications},
  author = {Eduardo Gonzalo and Luis E. Ibáñez},
  journal= {arXiv preprint arXiv:1903.08878},
  year   = {2019}
}

Comments

More accurate version of condition (1.5) given. Higgs-like example discussed. Section on inflation improved. References added

R2 v1 2026-06-23T08:14:44.809Z