Nonsingular deformations of singular compactifications, the cosmological constant, and the hierarchy problem

TL;DR

This paper explores deformations of global cosmic string compactifications, identifying unique nonsingular solutions with small positive cosmological constant and analyzing their properties within supergravity frameworks.

Contribution

It demonstrates the existence of a unique nonsingular deformation of global cosmic string compactifications with a small positive cosmological constant and explores their embedding in supergravity.

Findings

Existence of a unique nonsingular solution with a small positive cosmological constant.

Identification of a class of singular solutions that can have nonsingular deformations.

Embedding of solutions in type IIB supergravity and analysis of supersymmetry-preserving cases.

Abstract

We consider deformations of the singular "global cosmic string" compactifications, known to naturally generate exponentially large scales. The deformations are obtained by allowing a constant curvature metric on the brane and correspond to a choice of integration constant. We show that there exists a unique value of the integration constant that gives rise to a nonsingular solution. The metric on the brane is dS_4 with an exponentially small value of expansion parameter. We derive an upper bound on the brane cosmological constant. We find and investigate more general singular solutions---``dilatonic global string" compactifications---and show that they can have nonsingular deformations. We give an embedding of these solutions in type IIB supergravity. There is only one class of supersymmetry-preserving singular dilatonic solutions. We show that they do not have nonsingular deformations of the type considered here.