Quantum of the bare cosmological constant

Abstract

We show that there exist scalar field theories with plausible one-particle states in general D dimensional nonstationary curved spacetimes whose propagating modes are localized on d D dimensional hypersurfaces, and the corresponding stress tensor resembles the bare cosmological constant λB in the D dimensional bulk. We show that nontrivial d=1 dimensional solutions correspond to λB< 0. Considering free scalar theories we find that for d=2 the symmetry of the parameter space of classical solutions corresponding to λB≠ 0 is O(1,1) which enhances to Z2× Diff(R1) at λB=0. For d>2 we obtain O(d-1,1), O(d-1)× Diff(R1) and O(d-1,1)× O(d-2)× Diff(R1) corresponding to, respectively, λB<0, λB=0 and λB>0.