Brian Kent, Aaron Zimmerman

The double copy relates gauge and gravitational theories, with widespread application to quantum scattering amplitudes and classical perturbative results. It also connects exact classical solutions of abelian gauge and gravitational theories in a small number of specific examples, known as classical double copies. These have a number of special properties, such as being algebraically special. It remains an open question if classical doubles copies exist for algebraically general spacetimes, or those which possess nontrivial dynamics. Here we provide a novel framework for understanding classical double copies at the level of the metric, both organizing the known examples and exploring their properties under a new lens. Utilizing Killing vectors as natural gauge fields on a spacetime, we propose a procedure for generating new classical double copies. As a proof of concept, we provide a flat space single copy for the Kasner metric, an algebraically general spacetime. This example is also a double copy at the level of its curvature, and provides the first type I Weyl double copy, confirming expectations from perturbation theory. This provides a promising avenue for extending exact double copies to a broader class of general, physically relevant spacetimes.