Berwald spacetimes and very special relativity
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In this work we study Berwald spacetimes and their vacuum dynamics, where the latter are based on a Finsler generalization of the Einstein's equations derived from an action on the unit tangent bundle. In particular, we consider a specific class of spacetimes which are non-flat generalizations of the very special relativity (VSR) line element, to which we refer as very general relativity (VGR). We derive necessary and sufficient conditions for the VGR line element to be of Berwald type. We present two novel examples with the corresponding vacuum field equations: a Finslerian generalization of vanishing scalar invariant (VSI) spacetimes in Einstein's gravity as well as the most general homogeneous and isotropic VGR spacetime.
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Spherically symmetric, asymptotically flat Berwald vacuum solutions in Finsler gravity
Three families of non-Ricci-flat, asymptotically flat, SO(3)-symmetric Berwald vacuum solutions are derived as the first non-trivial exact solutions in Finsler gravity.
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