RT @MarioBarbatti: In our paper, we define "long timescale" for atoms as >> 10 ps. It's equivalent to >>1 h for a normal object or >>1600…
In our paper, we define "long timescale" for atoms as >> 10 ps. It's equivalent to >>1 h for a normal object or >>1600 Earth-years for a planet. A nice discussion about integration timesteps is in @Simon_PZ's paper: https://t.co/Bescx
#math How the #NeuralNetwork solver of the three-body problem was trained? It used a dataset of 10K samples generated by #Brutus, the best N-body problem solver described in "On the Reliability of N-body Simulations" - https://t.co/zzG5aOK9JF
Hi there computational astrophysicists. Here is a nice article from our new Open Access journal. http://t.co/tX8eySiv58
Hi there computational astrophysicists. Here is a nice article from our new Open Access journal. http://t.co/tX8eySiv58
Hi there computational astrophysicists. Here is a nice article from our new Open Access journal. http://t.co/tX8eySiv58
Hi there computational astrophysicists. Here is a nice article from our new Open Access journal. http://t.co/tX8eySiv58
"we wrote an N-body code called Brutus, that uses arbitrary-precision arithmetic" http://t.co/jkLLOytBaz
On the Reliability of N-body Simulations. http://t.co/ptsQgJxXaL