This work introduces the high-order Boris-SDC method for integrating the equations of motion for electrically charged particles in electric and magnetic fields. Boris-SDC relies on a combination of the Boris-integrator with spectral deferred corrections (SDC). SDC can be considered as preconditioned Picard iteration to compute the stages of a collocation method. In this interpretation, inverting the preconditioner corresponds to a sweep with a low-order method. In Boris-SDC, the Boris method, a second-order Lorentz force integrator based on velocity-Verlet, is used as a sweeper/preconditioner. The presented method provides a generic way to extend the classical Boris integrator, which is widely used in essentially all particle-based plasma p...
A new explicit time-reversible orbit integrator for the equations of motion in a static homogeneous ...
In this paper, we study the charged-particle dynamics under strong magnetic field in a toroidal axi-...
International audienceA high order, deterministic direct numerical method is proposed for the nonrel...
The paper investigates two new use cases for the Boris Spectral Deferred Corrections (Boris-SDC) tim...
In this paper we investigate the conservation of phase space volume of the Boris-SDC algorithm. This...
The paper investigates two new use cases for the Boris Spectral Deferred Corrections (Boris-SDC) tim...
The study of plasmas plays an important role in both science and technology. Plasma dynamics can be ...
The Lorentz equations describe the motion of electrically charged particles in electric and magnetic...
The Lorentz equations describe the motion of electrically charged particles in electric and magnetic...
The Boris algorithm is the most popular time integrator for charged particle motion in electric and ...
Due to its excellent long term accuracy, the Boris algorithm is the de facto standard for advancing ...
Xiao and Qin [Computer Physics Comm., 265:107981, 2021] recently proposed a remarkably simple modifi...
The Boris integration scheme, familiar in plasma simulation, is modified to use a spatial variable a...
This paper discusses how to improve the Boris pusher used to advance relativistic charged particles ...
We investigated the motion of a charged particle within an electromagnetic field using both the Eule...
A new explicit time-reversible orbit integrator for the equations of motion in a static homogeneous ...
In this paper, we study the charged-particle dynamics under strong magnetic field in a toroidal axi-...
International audienceA high order, deterministic direct numerical method is proposed for the nonrel...
The paper investigates two new use cases for the Boris Spectral Deferred Corrections (Boris-SDC) tim...
In this paper we investigate the conservation of phase space volume of the Boris-SDC algorithm. This...
The paper investigates two new use cases for the Boris Spectral Deferred Corrections (Boris-SDC) tim...
The study of plasmas plays an important role in both science and technology. Plasma dynamics can be ...
The Lorentz equations describe the motion of electrically charged particles in electric and magnetic...
The Lorentz equations describe the motion of electrically charged particles in electric and magnetic...
The Boris algorithm is the most popular time integrator for charged particle motion in electric and ...
Due to its excellent long term accuracy, the Boris algorithm is the de facto standard for advancing ...
Xiao and Qin [Computer Physics Comm., 265:107981, 2021] recently proposed a remarkably simple modifi...
The Boris integration scheme, familiar in plasma simulation, is modified to use a spatial variable a...
This paper discusses how to improve the Boris pusher used to advance relativistic charged particles ...
We investigated the motion of a charged particle within an electromagnetic field using both the Eule...
A new explicit time-reversible orbit integrator for the equations of motion in a static homogeneous ...
In this paper, we study the charged-particle dynamics under strong magnetic field in a toroidal axi-...
International audienceA high order, deterministic direct numerical method is proposed for the nonrel...