We demonstrate the flexibility and utility of the Berger-Rigoutsos Adaptive Mesh Refinement (AMR) algorithm used in the open-source numerical relativity code GRChombo for generating gravitational waveforms from binary black-hole inspirals, and for studying other problems involving non-trivial matter configurations. We show that GRChombo can produce high quality binary black-hole waveforms through a code comparison with the established numerical relativity code Lean. We also discuss some of the technical challenges involved in making use of full AMR (as opposed to, e.g. moving box mesh refinement), including the numerical effects caused by using various refinement criteria when regridding. We suggest several "rules of thumb" for when to use ...
116 pagesOur current model for the description of spacetime, Einstein’s general relativity, isnow ov...
In order to perform an evolutionary calculation in General Relativity, accurate initial data is need...
Numerical relativity waveforms are a critical resource in the quest to deepen our understanding of t...
In this work, we introduce ${\mathtt{GRChombo}}:$ a new numerical relativity code which incorporates...
We present results of 3D numerical simulations using a finite difference code featuring fixed mesh r...
Various topics in numerical relativity will be discussed, including solving the initial value proble...
As a network of advanced-era gravitational wave detectors is nearing its design sensitivity, efficie...
We have carried out numerical simulations of strongly gravitating systems based on the Einstein equa...
The expectation that light waves are the only way to gather information about the distant universe d...
The use of adaptive mesh refinement (AMR) techniques is crucial for accurate and efficient simulatio...
Gravitational waves are one of the most exciting predictions of General Relativity. Due to their com...
We present the newly developed code, GAMER (GPU-accelerated Adaptive MEsh Refinement code), which ha...
We present results from the new Dendro-GR code. These include simulations of binary black hole merge...
We produce the first astrophysically relevant numerical binary black hole gravitational waveform in ...
Gravitational wave observations from merging compact objects are becoming commonplace, and as detect...
116 pagesOur current model for the description of spacetime, Einstein’s general relativity, isnow ov...
In order to perform an evolutionary calculation in General Relativity, accurate initial data is need...
Numerical relativity waveforms are a critical resource in the quest to deepen our understanding of t...
In this work, we introduce ${\mathtt{GRChombo}}:$ a new numerical relativity code which incorporates...
We present results of 3D numerical simulations using a finite difference code featuring fixed mesh r...
Various topics in numerical relativity will be discussed, including solving the initial value proble...
As a network of advanced-era gravitational wave detectors is nearing its design sensitivity, efficie...
We have carried out numerical simulations of strongly gravitating systems based on the Einstein equa...
The expectation that light waves are the only way to gather information about the distant universe d...
The use of adaptive mesh refinement (AMR) techniques is crucial for accurate and efficient simulatio...
Gravitational waves are one of the most exciting predictions of General Relativity. Due to their com...
We present the newly developed code, GAMER (GPU-accelerated Adaptive MEsh Refinement code), which ha...
We present results from the new Dendro-GR code. These include simulations of binary black hole merge...
We produce the first astrophysically relevant numerical binary black hole gravitational waveform in ...
Gravitational wave observations from merging compact objects are becoming commonplace, and as detect...
116 pagesOur current model for the description of spacetime, Einstein’s general relativity, isnow ov...
In order to perform an evolutionary calculation in General Relativity, accurate initial data is need...
Numerical relativity waveforms are a critical resource in the quest to deepen our understanding of t...