The phase of scalar field wormholes at one loop in the path integral formulation for Euclidean quantum gravity
Abstract
We here calculate the one-loop approximation to the Euclidean Quantum Gravity coupled to a scalar field around the classical Carlini and Miji\'c wormhole solutions. The main result is that the Euclidean partition functional ZEQG in the ``little wormhole'' limit is real. Extension of the CM solutions with the inclusion of a bare cosmological constant to the case of a sphere S4 can lead to the elimination of the destabilizing effects of the scalar modes of gravity against those of the matter. In particular, in the asymptotic region of a large 4-sphere, we recover the Coleman's ( (1 λeff ) ) peak at the effective cosmological constant λeff=0, with no phase ambiguities in ZEQG.
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