Field Theory Models without the Cosmological Constant Problem

Abstract

We study field theory models in the context of a gravitational theory based on the requirement that the measure of integration in the action is not necessarily -g but it is determined dynamically through additional degrees of freedom, like four scalar fields φa. We study three possibilities for the general structure of the theory: (A) The total action has the form S=∫ Ld4x where the measure is built from the scalars φa in such a way that the transformation L L+const does not effect equations of motion. Then an infinite dimensional shifts group of the measure fields (SGMF) φa by arbitrary functions of the Lagrangian density L is a symmetry group of the action. (B) The total action has the form S=S1+S2, S1=∫ L1d4x, S2=∫-gL2d4x which is the only model different from (A) and invariant under SGMF (but now with fa= fa(L1)). Similarly, now only S1 satisfies the requirement that the transformation L1 L1+const does not effect equations of motion. Both in the case (A) and in the case (B) it is assumed that L, L1, L2 do not depend on φa. (C) The action includes a term which breaks the SGMF symmetry. It is shown that in the first order formalism in cases (A) and (B) the CCP is solved: the effective potential vanishes in a true vacuum state (TVS) without fine tuning. In the case (C), the breaking of the SGMF symmetry induces a nonzero energy density for the TVS.

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