On variational principle and canonical structure of gravitational theory in double-foliation formalism

TL;DR

This paper develops a double-foliation formalism to analyze the variational principle and canonical structure of gravitational theories with complex boundary conditions, including null boundaries, allowing more general metric variations.

Contribution

It introduces a systematic approach using double-foliation to handle boundary variations in gravitational actions, removing previous restrictions and identifying new canonical pairs on null boundaries.

Findings

Derived boundary action for well-posed variational principle.

Identified new canonical pair related to boundary character change.

Applicable to generalized theories of gravity.

Abstract

In this paper, we analyze the variation of the gravitational action on a bounded region of spacetime whose boundary contains segments with various characters, including null. We develop a systematic approach to decompose the derivative of metric variations into orthogonal and tangential components with respect to the boundary and express them in terms of variations of geometric objects associated with the boundary hypersurface. We suggest that a double-foliation of spacetime provides a natural and useful set-up for treating the general problem and clarifies the assumptions and results in specialized ones. In this set-up, we are able to obtain the boundary action necessary for the variational principle to become well-posed, beside the canonical structure of the theory, while keeping the variations quite general. Especially, we show how one can remove the restrictions imposed on the metric variations in previous works due to the assumption that the boundary character is kept unaltered. As a result, we find that on null boundaries a new canonical pair which is related to the change in character of the boundary. This set-up and the calculation procedure are stated in a way that can be applied to other more generalized theories of gravity.