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Nonperturbative renormalization group for scalar fields in de Sitter space: beyond the local potential approximation

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arxiv 1611.08106 v2 pith:ADHO4K53 submitted 2016-11-24 gr-qc hep-th

Nonperturbative renormalization group for scalar fields in de Sitter space: beyond the local potential approximation

classification gr-qc hep-th
keywords potentialapproximationlocalflowrenormalizationanomalousbeyondcompared
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Nonperturbative renormalization group techniques have recently proven a powerful tool to tackle the nontrivial infrared dynamics of light scalar fields in de Sitter space. In the present article, we develop the formalism beyond the local potential approximation employed in earlier works. In particular, we consider the derivative expansion, a systematic expansion in powers of field derivatives, appropriate for long wavelength modes, that we generalize to the relevant case of a curved metric with Lorentzian signature. The method is illustrated with a detailed discussion of the so-called local potential approximation prime which, on top of the full effective potential, includes a running (but field-independent) field renormalization. We explicitly compute the associated anomalous dimension for O(N) theories. We find that it can take large values along the flow, leading to sizable differences as compared to the local potential approximation. However, it does not prevent the phenomenon of gravitationally induced dimensional reduction pointed out in previous studies. We show that, as a consequence, the effective potential at the end of the flow is unchanged as compared to the local potential approximation, the main effect of the running anomalous dimension being merely to slow down the flow.

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