Hierarchically split supersymmetry with Fayet-Iliopoulos D-terms in string theory

We show that in string theory or supergravity with supersymmetry breaking through combined F-terms and Fayet-Iliopoulos D-terms the masses for charged scalars and fermions can be hierarchically split. The mass scale for the gauginos and higgsinos of the MSSM is controlled by the gravitino mass m3/2, as usual, while the scalars get extra contributions from the D-terms of extra Abelian U(1) factors, which can make them much heavier. The vanishing of the vacuum energy requires that their masses lie below m3/2MPl, which for m3/2=O(TeV) sets a bound of 1010-13GeV. Thus, scalars with non-vanishing U(1) charges typically become heavy, while others remain light, producing a spectrum of scalars with masses proportional to their charges, and therefore non-universal. This is a modification of the split supersymmetry scenario, but with a light gravitino. We discuss how Fayet-Iliopoulos terms of this size can arise in orientifold string compactifications with D-branes. Furthermore, within the frame work of D-term inflation, the same vacuum energy that generates the heavy scalar masses can be responsible for driving cosmological inflation.