Curved Four-Dimensional Spacetime as Infrared Regulator in Superstring Theories

Abstract

We construct a new class of exact and stable superstring solutions in which our four-dimensional spacetime is taken to be curved . We derive in this space the full one-loop partition function in the presence of non-zero FaμFaμ=F2 gauge background as well as in an RμσRμσ=2 gravitational background and we show that the non-zero curvature, Q2=2/(k+2), of the spacetime provides an infrared regulator for all [Faμ]n[Rμσ]m correlation functions. The string one-loop partition function Z(F,, Q) can be exactly computed, and it is IR and UV finite. For Q small we have thus obtained an IR regularization, consistent with spacetime supersymmetry (when F=0,=0) and modular invariance. Thus, it can be used to determine, without any infrared ambiguities, the one-loop string radiative corrections on gravitational, gauge or Yukawa couplings necessary for the string superunification predictions at low energies. (To appear in the Proceedings of the Trieste Spring 94 Workshop)

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