We present methods and algorithms that allow the Vlasiator code to run global, three-dimensional hybrid-Vlasov simulations of Earth's entire magnetosphere. The key ingredients that make Vlasov simulations at magnetospheric scales possible are the sparse velocity space implementation and spatial adaptive mesh refinement. We outline the algorithmic improvement of the semi-Lagrangian solver for six-dimensional phase space quantities, discuss the coupling of Vlasov and Maxwell equations' solvers in a refined mesh, and provide performance figures from simulation test runs that demonstrate the scalability of this simulation system to full magnetospheric runs.Peer reviewe
We present results of noon-midnight meridional plane global hybrid-Vlasov simulations of the magneto...
A massively parallel simulation code, called dHybrid, has been developed to perform global scale stu...
Dayside magnetic reconnection at the magnetopause, which is a major driver of space weather, is stud...
Numerical simulation models that are used to investigate the near-Earth space plasma environment req...
Simulating space plasma on a global scale is computationally demanding due to the system size involv...
In hybrid-Vlasov plasma modeling, the ion velocity distribution function is propagated using the Vla...
This paper reviews Vlasov-based numerical methods used to model plasma in space physics and astrophy...
Modern investigations of dynamical space plasma systems such as magnetically complicated topologies ...
Vlasiator is the world's first global Eulerian hybrid-Vlasov simulation code, going beyond magnetohy...
<p>In hybrid-Vlasov plasma modeling, the ion velocity distribution function is propagated using the ...
<p>In hybrid-Vlasov plasma modeling, the ion velocity distribution function is propagated using the ...
<p>In hybrid-Vlasov plasma modeling, the ion velocity distribution function is propagated using the ...
<p>In hybrid-Vlasov plasma modeling, the ion velocity distribution function is propagated using the ...
The Sun is the source of the solar wind, a continuous stream of electrically charged particles and m...
Vlasov solvers that operate on a phase‐space grid are highly accurate but also numerically demanding...
We present results of noon-midnight meridional plane global hybrid-Vlasov simulations of the magneto...
A massively parallel simulation code, called dHybrid, has been developed to perform global scale stu...
Dayside magnetic reconnection at the magnetopause, which is a major driver of space weather, is stud...
Numerical simulation models that are used to investigate the near-Earth space plasma environment req...
Simulating space plasma on a global scale is computationally demanding due to the system size involv...
In hybrid-Vlasov plasma modeling, the ion velocity distribution function is propagated using the Vla...
This paper reviews Vlasov-based numerical methods used to model plasma in space physics and astrophy...
Modern investigations of dynamical space plasma systems such as magnetically complicated topologies ...
Vlasiator is the world's first global Eulerian hybrid-Vlasov simulation code, going beyond magnetohy...
<p>In hybrid-Vlasov plasma modeling, the ion velocity distribution function is propagated using the ...
<p>In hybrid-Vlasov plasma modeling, the ion velocity distribution function is propagated using the ...
<p>In hybrid-Vlasov plasma modeling, the ion velocity distribution function is propagated using the ...
<p>In hybrid-Vlasov plasma modeling, the ion velocity distribution function is propagated using the ...
The Sun is the source of the solar wind, a continuous stream of electrically charged particles and m...
Vlasov solvers that operate on a phase‐space grid are highly accurate but also numerically demanding...
We present results of noon-midnight meridional plane global hybrid-Vlasov simulations of the magneto...
A massively parallel simulation code, called dHybrid, has been developed to perform global scale stu...
Dayside magnetic reconnection at the magnetopause, which is a major driver of space weather, is stud...