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Generalized Darmois-Israel junction conditions
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Generalized Darmois-Israel junction conditions
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We present a general method to derive the appropriate Darmois-Israel junction conditions for gravitational theories with higher-order derivative terms by integrating the bulk equations of motion across the singular hypersurface. In higher derivative theories, the field equations can contain terms which are more singular than the Dirac delta distribution. To handle them appropriately, we formulate a regularization procedure based on representing the delta function as the limit of a sequence of classical functions. This procedure involves imposing suitable constraints on the extrinsic curvature such that the field equations are compatible with the singular source being a delta distribution. As explicit examples of our approach, we demonstrate in detail how to obtain the generalized junction conditions for quadratic gravity, $\mathcal{F}(R)$ theories, a 4D low-energy effective action in string theory and action terms that are Euler densities. Our results are novel, and refine the accuracy of previously claimed results in $\mathcal{F} (R)$ theories and quadratic gravity. In particular, when the coupling constants of quadratic gravity are those for the Gauss-Bonnet case, our junction conditions reduce to the known ones for the latter obtained independently by boundary variation of a surface term in the action. Finally, we briefly discuss a couple of applications to thin-shell wormholes and stellar models.
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