Path integral measure and cosmological constant

Abstract

Considering (euclidean) quantum gravity in the Einstein-Hilbert truncation, we calculate the one-loop effective action 1l grav using a spherical background. Usually, this calculation is performed resorting to proper-time regularization within the heat kernel expansion and gives rise to quartically and quadratically UV-sensitive contributions to the vacuum energy vac= cc8π G, with cc and G cosmological and Newton constant, respectively. We show that, if the measure in the path integral that defines 1l grav is correctly taken into account, and the physical UV cutoff cut properly introduced, vac presents only a (mild) logarithmic sensitivity to cut. We also consider a free scalar field and a free Dirac field on a spherical gravitational background, and find that the same holds true even in the presence of matter. These results are found without resorting to any supersymmetric embedding of the theory, and shed new light on the cosmological constant problem.

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