On the IR divergences in de Sitter space: loops, resummation and the semi-classical wavefunction
Published version
Peer-reviewed
Repository URI
Repository DOI
Change log
Authors
Abstract
jats:titleAjats:scbstract</jats:sc> </jats:title>jats:pIn this paper, we revisit the infrared (IR) divergences in de Sitter (dS) space using the wavefunction method, and explicitly explore how the resummation of higher-order loops leads to the stochastic formalism. In light of recent developments of the cosmological bootstrap, we track the behaviour of these nontrivial IR effects from perturbation theory to the non-perturbative regime. Specifically, we first examine the perturbative computation of wavefunction coefficients, and show that there is a clear distinction between classical components from tree-level diagrams and quantum ones from loop processes. Cosmological correlators at loop level receive contributions from tree-level wavefunction coefficients, which we dub classical loops. This distinction significantly simplifies the analysis of loop-level IR divergences, as we find the leading contributions always come from these classical loops. Then we compare with correlators from the perturbative stochastic computation, and find the results there are essentially the ones from classical loops, while quantum loops are only present as subleading corrections. This demonstrates that the leading IR effects are contained in the semi-classical wavefunction which is a resummation of all the tree-level diagrams. With this insight, we go beyond perturbation theory and present a new derivation of the stochastic formalism using the saddle-point approximation. We show that the Fokker-Planck equation follows as a consequence of two effects: the drift from the Schrödinger equation that describes the bulk time evolution, and the diffusion from the Polchinski’s equation which corresponds to the exact renormalization group flow of the coarse-grained theory on the boundary. Our analysis highlights the precise and simple link between the stochastic formalism and the semi-classical wavefunction.</jats:p>
Description
Acknowledgements: We acknowledge many inspiring discussions with Santiago Agui Salcedo, Carlos Duaso Pueyo, Scott Melville, Enrico Pajer, Guilherme Pimentel, Arttu Rajantie and Kostas Skenderis. SC is supported in by the STFC Consolidated Grants ST/T000791/1 and ST/X000575/1. DGW is supported by a Rubicon Postdoctoral Fellowship awarded by the Netherlands Organisation for Scientific Research (NWO), and partially by the VIDI grant with Project No. 680-47-535 from NWO and the STFC Consolidated Grants ST/T000694/1 and ST/X000664/1. ACD acknowledges partial support from STFC Consolidated Grant ST/T000694/1.
Keywords
Journal Title
Conference Name
Journal ISSN
1029-8479
Volume Title
Publisher
Publisher DOI
Sponsorship
Netherlands Organisation for Scientific Research (NWO) (680-47-535)
Science and Technology Facilities Council (ST/X000664/1)