Journal of High Energy Physics (Sep 2022)

Linking the singularities of cosmological correlators

  • Daniel Baumann,
  • Wei-Ming Chen,
  • Carlos Duaso Pueyo,
  • Austin Joyce,
  • Hayden Lee,
  • Guilherme L. Pimentel

DOI
https://doi.org/10.1007/JHEP09(2022)010
Journal volume & issue
Vol. 2022, no. 9
pp. 1 – 100

Abstract

Read online

Abstract Much of the structure of cosmological correlators is controlled by their singularities, which in turn are fixed in terms of flat-space scattering amplitudes. An important challenge is to interpolate between the singular limits to determine the full correlators at arbitrary kinematics. This is particularly relevant because the singularities of correlators are not directly observable, but can only be accessed by analytic continuation. In this paper, we study rational correlators — including those of gauge fields, gravitons, and the inflaton — whose only singularities at tree level are poles and whose behavior away from these poles is strongly constrained by unitarity and locality. We describe how unitarity translates into a set of cutting rules that consistent correlators must satisfy, and explain how this can be used to bootstrap correlators given information about their singularities. We also derive recursion relations that allow the iterative construction of more complicated correlators from simpler building blocks. In flat space, all energy singularities are simple poles, so that the combination of unitarity constraints and recursion relations provides an efficient way to bootstrap the full correlators. In many cases, these flat-space correlators can then be transformed into their more complex de Sitter counterparts. As an example of this procedure, we derive the correlator associated to graviton Compton scattering in de Sitter space, though the methods are much more widely applicable.

Keywords