Linear hyperbolic equations in a double null foliation
Abstract
The Bianchi identities for the Weyl curvature tensor of a spacetime solving the vacuum Einstein equations in a double null foliation exhibit a hyperbolic structure, which can be used to obtain detailed nonlinear estimates on the null Weyl tensor components. The aim of this paper is twofold. First we discuss existence and uniqueness for solutions of first-order linear hyperbolic systems of equations in a double null foliation on an arbitrary spacetime, with initial data posed on a past null hypersurface . We prove a global existence and uniqueness theorem for these systems. Then we discuss the relationship between these systems, the Bianchi equations, and the linearized Bianchi equations (the linearized Bianchi equations are obtained from the usual Bianchi equations by replacing the null Weyl tensor components with unknown tensorfields). We derive a novel algebraic constraint which must be satisfied, at every point in the spacetime, by tensorfields satisfying the linearized Bianchi equations.
Cite
@article{arxiv.2412.01915,
title = {Linear hyperbolic equations in a double null foliation},
author = {Christopher Stith},
journal= {arXiv preprint arXiv:2412.01915},
year = {2024}
}
Comments
92 pages, 5 figures