Abstract
While the slicing condition has been extremely successful in numerous numerical relativity simulations, it is also known to develop “gauge shocks” in some examples. Alternative “shock-avoiding” slicing conditions suggested by Alcubierre prevent these pathologies in those examples, but have not yet been explored and tested very broadly. In this paper we compare the performance of shock-avoiding slicing conditions with those of 1+log slicing for a number of “text-book” problems, including black holes and relativistic stars. While, in some simulations, the shock-avoiding slicing conditions feature some unusual properties and lead to more “gauge dynamics” than the slicing condition, we find that they perform quite similarly in terms of stability and accuracy, and hence provide a very viable alternative to slicing.
4 More- Received 13 July 2022
- Accepted 26 July 2022
DOI:https://doi.org/10.1103/PhysRevD.106.044014
© 2022 American Physical Society