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2012 journal article

Numerical simulations with a first order BSSN formulation of Einstein's field equations

Phys.Rev.D, 85, 084004.

By: J. Brown ⁿ, P. Diener ^*, S. Field ^*, J. Hesthaven ^*, F. Herrmann ^*, A. Mroue^*, O. Sarbach ^*, E. Schnetter ^*, M. Tiglio ^*, M. Wagman ^*

10.1103/PhysRevD.85.084004

Find Text @ NCSU

open access via link.aps.org (publisher PDF)

Source: ORCID

Added: November 4, 2021

We present a new fully first-order strongly hyperbolic representation of the Baumgarte-Shapiro-Shibata-Nakamura formulation of Einstein's equations with optional constraint damping terms. We describe the characteristic fields of the system, discuss its hyperbolicity properties, and present two numerical implementations and simulations: one using finite differences, adaptive mesh refinement, and, in particular, binary black holes, and another one using the discontinuous Galerkin method in spherical symmetry. The results of this paper constitute a first step in an effort to combine the robustness of Baumgarte-Shapiro-Shibata-Nakamura evolutions with very high accuracy numerical techniques, such as spectral collocation multidomain or discontinuous Galerkin methods.