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One-loop gravitational wave spectrum in de Sitter spacetime

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arxiv 1205.3097 v2 pith:IST5ENYD submitted 2012-05-14 gr-qc hep-th

One-loop gravitational wave spectrum in de Sitter spacetime

classification gr-qc hep-th
keywords sitterspacetimetimearbitrarycorrectionsdistributionfunctionone-loop
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The two-point function for tensor metric perturbations around de Sitter spacetime including one-loop corrections from massless conformally coupled scalar fields is calculated exactly. We work in the Poincar\'e patch (with spatially flat sections) and employ dimensional regularization for the renormalization process. Unlike previous studies we obtain the result for arbitrary time separations rather than just equal times. Moreover, in contrast to existing results for tensor perturbations, ours is manifestly invariant with respect to the subgroup of de Sitter isometries corresponding to a simultaneous time translation and rescaling of the spatial coordinates. Having selected the right initial state for the interacting theory via an appropriate i\epsilon prescription is crucial for that. Finally, we show that although the two-point function is a well-defined spacetime distribution, the equal-time limit of its spatial Fourier transform is divergent. Therefore, contrary to the well-defined distribution for arbitrary time separations, the power spectrum is strictly speaking ill-defined when loop corrections are included.

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  1. Matching second-order classical and 1-loop quantum tensor power spectra in de Sitter spacetime

    hep-ph 2026-05 unverdicted novelty 5.0

    Classical part of 1-loop tensor power spectrum in de Sitter is IR divergent but cancels with vacuum part, enabling non-perturbative renormalization to extract unaffected physical information.