Energy Correlators in Warped Geometries

TL;DR

This paper investigates energy correlators in warped holographic geometries, providing insights into strongly-coupled theories and potential applications in collider physics beyond the standard model.

Contribution

It introduces a method to compute energy correlators in warped geometries with IR truncations, extending holographic techniques to more realistic theories.

Findings

Energy correlators computed for warped geometries asymptoting to AdS_5

Analysis of IR-truncated geometries with a 4D gap

Framework for phenomenological applications in collider searches

Abstract

We study Energy Correlators as probes of strongly-coupled nearly-conformal field theories within their holographically dual descriptions, focusing on the important features that appear in realistic theories going beyond the standard model. In particular, we study warped geometries which asymptote to $\text{AdS}_5$, as well as IR-truncations dual to a 4D gap. Our correlators are computed by in-in type Witten perturbative diagrams, corresponding to a large-N expansion of the strong dynamics. We describe how this sets the stage for phenomenological applications for collider searches beyond the standard model as well as for new theoretical explorations in Lorentzian holography.