Duality symmetry and dynamics on finite null boundaries

TL;DR

This paper develops a recursive framework for boost-weighted metric functionals under near-horizon symmetries, highlighting duality symmetry's role in null boundary phase space and deriving sub-leading Noether charges in Einstein-Cartan-Holst gravity.

Contribution

It introduces a recursive method to determine boost-weighted functionals and their evolution equations, revealing the significance of duality symmetry and deriving sub-leading charges in a gravity formulation.

Findings

Recursive pattern for boost-weighted functionals under symmetries

Duality symmetry's role in null boundary phase space

Sub-leading Holst charge involving Weyl scalar 

Abstract

In this work, we derive a set of boost-weighted $w$ functionals of the metric, with $w\in\{2,1,0,-1,-2\}$, which transform semi-covariantly under the action of the near-horizon symmetry group. In particular, we demonstrate that the knowledge of the $w=-2$ metric functional and its behaviour under the near-horizon symmetry transformations allows us to derive the expressions and the properties of the remaining boost-weighted functionals via a recursive pattern. A similar recursive pattern also appears when evaluating the action of the near-horizon symmetry group on the evolution equations of these boost-weighted functionals. Again, the knowledge of the evolution equation of the boost $w=-2$ functional and its behaviour under symmetry transformations allows the remaining evolution equations to be determined using symmetry arguments. We also emphasize the role played by the duality symmetry in the characterization of the phase space of a null boundary and in the evaluation of the equation of motion. In conclusion, we derive the sub-leading Noether charges in the Einstein-Cartan-Holst formulation of gravity, showing that the imaginary part of the Weyl scalar $\Psi_2$ appears at the sub-leading order in the Holst charge.