Stability properties of a formulation of Einstein's equations

Authors

Gioel Calabrese, Louisiana State University
Jorge Pullin, Louisiana State University
Olivier Sarbach, Louisiana State University
Manuel Tiglio, Louisiana State University

Document Type

Article

Publication Date

1-1-2002

Abstract

We study the stability properties of the Kidder-Scheel-Teukolsky (KST) many-parameter formulation of Einstein's equations for weak gravitational waves on flat space-time from a continuum and numerical point of view. At the continuum, performing a linearized analysis of the equations around flat space-time, it turns out that they have, essentially, no non-principal terms. As a consequence, in the weak field limit the stability properties of this formulation depend only on the level of hyperbolicity of the system. At the discrete level we present some simple one-dimensional simulations using the KST family. The goal is to analyze the type of instabilities that appear as one changes parameter values in the formulation. Lessons learned in this analysis can be applied in other formulations with similar properties. © 2002 The American Physical Society.

Publication Source (Journal or Book title)

Physical Review D

Recommended Citation

Calabrese, G., Pullin, J., Sarbach, O., & Tiglio, M. (2002). Stability properties of a formulation of Einstein's equations. Physical Review D, 66 (6) https://doi.org/10.1103/PhysRevD.66.064011