A Simflowny-based high-performance 3D code for the generalized induction equation

@article{Vigan2019ASH,
  title={A Simflowny-based high-performance 3D code for the generalized induction equation},
  author={Daniele Vigan{\`o} and David Mart{\'i}nez-G{\'o}mez and Jos{\'e} A. Pons and Carlos Palenzuela and Federico Carrasco and Borja Mi{\~n}ano and Antonio Arbona and Carles Bona and Joan Mass{\'o}},
  journal={Comput. Phys. Commun.},
  year={2019},
  volume={237},
  pages={168-183}
}
  • Daniele Viganò, David Martínez-Gómez, +6 authors Joan Massó
  • Published in Comput. Phys. Commun. 2019
  • Mathematics, Computer Science, Physics
  • Abstract In the interior of neutron stars, the induction equation regulates the long-term evolution of the magnetic fields by means of resistivity, Hall dynamics and ambipolar diffusion. Despite the apparent simplicity and compactness of the equation, the dynamics it describes is not trivial and its understanding relies on accurate numerical simulations. While a few works in 2D have reached a mature stage and a consensus on the general dynamics at least for some simple initial data, only few… CONTINUE READING

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