On the notion of potential in quantum gravity
Abstract
The problem of consistent definition of the quantum corrected gravitational field is considered in the framework of the S-matrix method. Gauge dependence of the one-particle-reducible part of the two-scalar-particle scattering amplitude, with the help of which the potential is usually defined, is investigated at the one-loop approximation. The 1/r2-terms in the potential, which are of zero order in the Planck constant , are shown to be independent of the gauge parameter weighting the gauge condition in the action. However, the 1/r3-terms, proportional to , describing the first proper quantum correction, are proved to be gauge-dependent. With the help of the Slavnov identities, their dependence on the weighting parameter is calculated explicitly. The reason the gauge dependence originates from is briefly discussed.
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