Add to ORKGCurrent methods of evolving a spacetime containing one or more black holes are plagued by instabilities that prohibit long-term evolution. Some of these instabilities may be due to the numerical method used, traditionally finite differencing. In this paper, we explore the use of a pseudospectral collocation (PSC) method for the evolution of a spherically symmetric black hole spacetime in one dimension using a hyperbolic formulation of Einstein’s equations. We demonstrate that our PSC method is able to evolve a spherically symmetric black hole spacetime forever without enforcing constraints, even if we add dynamics via a Klein-Gordon scalar field. We find that, in contrast with finite-differencing methods, black hole excision is a trivial op...
To stuff a black hole. We analyze and apply an alternative to black hole excision based on smoothing...
We describe an explicit in time, finite-difference code designed to simulate black holes by using th...
to turducken (turduckens, turduckening, turduckened, turduckened) [math.]: To stuff a black hole. We...
Current methods of evolving a spacetime containing one or more black holes are plagued by instabilit...
We describe a numerical code that solves Einstein’s equations for a Schwarzschild black hole in sphe...
We describe a numerical code that solves Einstein’s equations for a Schwarzschild black hole in sphe...
We have recently constructed a numerical code that evolves a spherically symmetric spacetime using a...
We have recently constructed a numerical code that evolves a spherically symmetric spacetime using a...
Excision techniques are used in order to deal with black holes in numerical simulations of Einstein ...
We present a new many-parameter family of hyperbolic representations of Einstein’s equations, which ...
Simulations of binary black hole systems using the Spectral Einstein Code (SpEC) are done on a compu...
Simulations of binary black hole systems using the Spectral Einstein Code (SpEC) are done on a compu...
We present a new many-parameter family of hyperbolic representations of Einstein’s equations, which ...
We present a new pseudo-spectral code for the simulation of evolution systems that are second order ...
We describe an explicit in time, finite-difference code designed to simulate black holes by using th...
To stuff a black hole. We analyze and apply an alternative to black hole excision based on smoothing...
We describe an explicit in time, finite-difference code designed to simulate black holes by using th...
to turducken (turduckens, turduckening, turduckened, turduckened) [math.]: To stuff a black hole. We...
Current methods of evolving a spacetime containing one or more black holes are plagued by instabilit...
We describe a numerical code that solves Einstein’s equations for a Schwarzschild black hole in sphe...
We describe a numerical code that solves Einstein’s equations for a Schwarzschild black hole in sphe...
We have recently constructed a numerical code that evolves a spherically symmetric spacetime using a...
We have recently constructed a numerical code that evolves a spherically symmetric spacetime using a...
Excision techniques are used in order to deal with black holes in numerical simulations of Einstein ...
We present a new many-parameter family of hyperbolic representations of Einstein’s equations, which ...
Simulations of binary black hole systems using the Spectral Einstein Code (SpEC) are done on a compu...
Simulations of binary black hole systems using the Spectral Einstein Code (SpEC) are done on a compu...
We present a new many-parameter family of hyperbolic representations of Einstein’s equations, which ...
We present a new pseudo-spectral code for the simulation of evolution systems that are second order ...
We describe an explicit in time, finite-difference code designed to simulate black holes by using th...
To stuff a black hole. We analyze and apply an alternative to black hole excision based on smoothing...
We describe an explicit in time, finite-difference code designed to simulate black holes by using th...
to turducken (turduckens, turduckening, turduckened, turduckened) [math.]: To stuff a black hole. We...