Covariant dynamics from static spherically symmetric geometries

Abstract: We show that any one-parameter family of static, spherically symmetric spacetime metrics can be embedded as the unique vacuum solution set of a generally covariant theory of pure gravity. These theories, involving at most second-order derivatives of metrics, are uniquely specified up to two arbitrary functions that leave the metric unchanged, by a recently derived covariance condition in the Hamiltonian framework. This result solves the inverse problem of Birkhoff's theorem in full generality and establishes a systematic approach for reconstructing covariant dynamics from a given geometry. The framework applies broadly to quantum-gravity-inspired metrics, including regular black hole models, and provides a new tool for probing their dynamical and observational foundations.