Why the Cosmological Constant is so Small ? A String Theory Perspective

Abstract

With no free parameter (except the string scale MS), dynamical flux compactification in Type IIB string theory determines both the cosmological constant (vacuum energy density) and the Planck mass MP in terms of MS, thus yielding their relation. Following elementary probability theory, we find that a good fraction of the meta-stable de Sitter vacua in the cosmic string theory landscape tend to have an exponentially small cosmological constant compared to either the string scale MS or the Planck scale MP, i.e., MS4 MP4. Here we illustrate the basic stringy ideas with a simple scalar field φ3 (or φ4) model coupled with fluxes to show how this may happen and how the usual radiative instability problem is bypassed (since there are no parameters to be fine-tuned). These low lying semi-classical de Sitter vacua tend to be accompanied by light scalar bosons/axions, so the Higgs boson mass hierarchy problem may be ameliorated as well.