We perform a comparison between the smoothed particle magnetohydrodynamics (SPMHD) code, phantom, and the Eulerian grid-based code, flash, on the small-scale turbulent dynamo in driven, Mach 10 turbulence. We show, for the first time, that the exponential growth and saturation of an initially weak magnetic field via the small-scale dynamo can be successfully reproduced with SPMHD. The two codes agree on the behaviour of the magnetic energy spectra, the saturation level of magnetic energy, and the distribution of magnetic field strengths during the growth and saturation phases. The main difference is that the dynamo growth rate, and its dependence on resolution, differs between the codes, caused by differences in the numerical dissipation an...
| openaire: EC/H2020/818665/EU//UniSDynMagnetohydrodynamical (MHD) dynamos emerge in many different ...
Small-scale dynamos play important roles in modern astrophysics, especially on Galactic and extragal...
| openaire: EC/H2020/818665/EU//UniSDynMagnetic fields grow quickly even at early cosmological times...
Supersonic turbulence is believed to be at the heart of star formation. We have performed smoothed p...
Numerical methods to improve the treatment of magnetic fields in smoothed field magnetohydrodynamics...
Numerical methods to improve the treatment of magnetic fields in smoothed field magnetohydrodynamics...
Direct numerical simulations of turbulent Hall dynamos are presented. The evolution of an initially ...
4 pagesInternational audienceWe present a three-pronged numerical approach to the dynamo problem at ...
Many astrophysical applications involve magnetized turbulent flows with shock waves. Ab initio star ...
We present numerical simulations of driven magnetohydrodynamic (MHD) turbulence with weak/moderate i...
The small-scale turbulent dynamo (SSD) is likely to be responsible for the magnetisation of the inte...
Direct numerical simulations of low Mach number compressible three-dimensional magnetohydrodynamic (...
The generation of magnetic fields in space plasmas and in astrophysics is usually described within t...
Magnetic fields grow quickly, even at early cosmological times, suggesting the action of a small-sca...
We investigate the Lagrangian mechanism of the kinematic ?fluctuation? magnetic dynamo in turbulent ...
| openaire: EC/H2020/818665/EU//UniSDynMagnetohydrodynamical (MHD) dynamos emerge in many different ...
Small-scale dynamos play important roles in modern astrophysics, especially on Galactic and extragal...
| openaire: EC/H2020/818665/EU//UniSDynMagnetic fields grow quickly even at early cosmological times...
Supersonic turbulence is believed to be at the heart of star formation. We have performed smoothed p...
Numerical methods to improve the treatment of magnetic fields in smoothed field magnetohydrodynamics...
Numerical methods to improve the treatment of magnetic fields in smoothed field magnetohydrodynamics...
Direct numerical simulations of turbulent Hall dynamos are presented. The evolution of an initially ...
4 pagesInternational audienceWe present a three-pronged numerical approach to the dynamo problem at ...
Many astrophysical applications involve magnetized turbulent flows with shock waves. Ab initio star ...
We present numerical simulations of driven magnetohydrodynamic (MHD) turbulence with weak/moderate i...
The small-scale turbulent dynamo (SSD) is likely to be responsible for the magnetisation of the inte...
Direct numerical simulations of low Mach number compressible three-dimensional magnetohydrodynamic (...
The generation of magnetic fields in space plasmas and in astrophysics is usually described within t...
Magnetic fields grow quickly, even at early cosmological times, suggesting the action of a small-sca...
We investigate the Lagrangian mechanism of the kinematic ?fluctuation? magnetic dynamo in turbulent ...
| openaire: EC/H2020/818665/EU//UniSDynMagnetohydrodynamical (MHD) dynamos emerge in many different ...
Small-scale dynamos play important roles in modern astrophysics, especially on Galactic and extragal...
| openaire: EC/H2020/818665/EU//UniSDynMagnetic fields grow quickly even at early cosmological times...