Derives criteria for when state-dependent proto-area two-jets in approximate holographic codes are compatible with metric two-jets, including polyhedral realizations, X-ray transform tangent spaces, and quadratic obstructions to geometry.
3+1 formalism in general relativity : Bases of numerical relativity
2 Pith papers cite this work. Polarity classification is still indexing.
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COSMOS is a specialized open numerical relativity solver for PBH formation using scale-up coordinates and fixed mesh refinement on scalar and fluid matter.
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Nonlinear Geometrizability of State-Dependent Proto-Area in Approximate Holographic Codes
Derives criteria for when state-dependent proto-area two-jets in approximate holographic codes are compatible with metric two-jets, including polyhedral realizations, X-ray transform tangent spaces, and quadratic obstructions to geometry.
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COSMOS: A numerical relativity code specialized for PBH formation
COSMOS is a specialized open numerical relativity solver for PBH formation using scale-up coordinates and fixed mesh refinement on scalar and fluid matter.