The exact numerical simulation of plasma turbulence is one of the assets and challenges in fusion research. For grid-based solvers, sufficiently fine resolutions are often unattainable due to the curse of dimensionality. The sparse grid combination technique provides the means to alleviate the curse of dimensionality for kinetic simulations. However, the hierarchical representation for the combination step with the state-of-the-art hat functions suffers from poor conservation properties and numerical instability. The present work introduces two new variants of hierarchical multiscale basis functions for use with the combination technique: the biorthogonal and full weighting bases. The new basis functions conserve the total mass and are sh...
Nonlinear processes in hot, magnetized plasma are notoriously difficult to un-derstand without the u...
The simulation of hot fusion plasmas via the five-dimensional gyrokinetic equations is computational...
This paper proposes a novel numerical integrator for modeling multispecies Coulomb collisions in kin...
AbstractA spectral method for kinetic plasma simulations based on the expansion of the velocity dis-...
AbstractUsing the five-dimensional gyrokinetic equations for simulations of hot fusion plasmas requi...
Many petascale and exascale scientific simulations involve the time evolution of systems modelled as...
Many large scale scientific simulations involve the time evolution of systems modelled as Partial Di...
Plasma fusion is one of the promising candidates for an emission-free energy source and is heavily i...
High-dimensional problems pose a challenge for tomorrow’s supercomputing. Problems that require the ...
Many petascale and exascale scientific simulations involve the time evolution of systems modelled as...
In collisionless and weakly collisional plasmas, the particle distribution function is a rich tapest...
International audienceThis paper deals with the implementation of high order semi-Lagrangian particl...
Magnetic confinement fusion reactors suffer severely from heat and particle losses through turbulent...
A physics-based-adaptive plasma model and an appropriate computational algorithm are developed to nu...
Functionals related to a solution of a problem, usually modelled by partial differential equations, ...
Nonlinear processes in hot, magnetized plasma are notoriously difficult to un-derstand without the u...
The simulation of hot fusion plasmas via the five-dimensional gyrokinetic equations is computational...
This paper proposes a novel numerical integrator for modeling multispecies Coulomb collisions in kin...
AbstractA spectral method for kinetic plasma simulations based on the expansion of the velocity dis-...
AbstractUsing the five-dimensional gyrokinetic equations for simulations of hot fusion plasmas requi...
Many petascale and exascale scientific simulations involve the time evolution of systems modelled as...
Many large scale scientific simulations involve the time evolution of systems modelled as Partial Di...
Plasma fusion is one of the promising candidates for an emission-free energy source and is heavily i...
High-dimensional problems pose a challenge for tomorrow’s supercomputing. Problems that require the ...
Many petascale and exascale scientific simulations involve the time evolution of systems modelled as...
In collisionless and weakly collisional plasmas, the particle distribution function is a rich tapest...
International audienceThis paper deals with the implementation of high order semi-Lagrangian particl...
Magnetic confinement fusion reactors suffer severely from heat and particle losses through turbulent...
A physics-based-adaptive plasma model and an appropriate computational algorithm are developed to nu...
Functionals related to a solution of a problem, usually modelled by partial differential equations, ...
Nonlinear processes in hot, magnetized plasma are notoriously difficult to un-derstand without the u...
The simulation of hot fusion plasmas via the five-dimensional gyrokinetic equations is computational...
This paper proposes a novel numerical integrator for modeling multispecies Coulomb collisions in kin...