Late-time correlation functions in dS$_3$/CFT$_2$ correspondence

TL;DR

This paper computes late-time correlation functions in dS$_3$/CFT$_2$ using higher-spin gravity, establishing a holographic duality via analytic continuation from AdS$_3$, and extends previous results to more complex correlators and loop corrections.

Contribution

It introduces a detailed formulation for calculating late-time correlators in dS$_3$/CFT$_2$ and extends the analysis to higher-order and more complex correlators, including one-loop corrections.

Findings

Computed late-time correlation functions in dS$_3$ using higher-spin gravity.

Established a precise holographic duality via analytic continuation from AdS$_3$.

Extended analysis to four-point functions and loop corrections.

Abstract

We compute the late-time correlation functions on three-dimensional de Sitter spacetime for a higher-spin gravity theory. For this, we elaborate on the formulation to obtain the wave functional of universe from a dual conformal field theory, which is used to compute the late-time correlation functions. We argue that the relation to direct bulk Feynman diagram computations in the in-in formulation. We furthermore provide a precise prescription to construct a higher-spin dS$_3$ holography as an analytic continuation of Gaberdiel-Gopakumar duality for AdS$_3$. Part of results here were already reported in an earlier letter. We explain the details of their derivations and extend the analysis to more generic cases in this paper. Previously, we have examined two- and three-point functions and a simple four-point correlator at the leading order in Newton constant. Here we also evaluate more complicated four-point correlators. Finally, we study late-time correlators in an alternative limit of dS$_3$/CFT$_2$ with critical level coset, such as, two-point correlator on conical defect geometry. We also examine one-loop corrections to two-point correlator on dS$_3$.