We propose and we justify a Monte-Carlo algorithm which solves a spatially homogeneous kinetic equation of Boltzmann type that models the fusion reaction between a deuterium ion and a tritium ion, and giving an α particle and a neutron. The proposed algorithm is validated with the use of explicit solutions of the kinetic model obtained by replacing the fusion cross-section by a Maxwellian cross section
We argue that the Maxwellian approximation can essentially underestimate the rates of some nuclear r...
AbstractLinear kinetic Monte Carlo particle transport models are frequently employed in fusion plasm...
By reaching the first wall of a fusion reactor, charged plasma particles, electrons and ions are rec...
We propose and we justify a Monte-Carlo algorithm which solves a spatially homogeneous kinetic equat...
We propose and we justify a Monte-Carlo algorithm which solves a spatially homogeneous kin...
At the birth of the hot point in an Inertial Confinement Fusion experiment, the plasma at the center...
We present an ion kinetic model describing the ignition and burn of the deuterium-tritium fuel of in...
In this thesis several novel techniques are developed to simulate fusion events in an isotropic, ele...
We present an ion kinetic model describing the ignition and burn of the deuterium-tritium fuel of in...
This thesis presents work on two topics related to nuclear fusion in plasmas. The first topic is th...
We investigate the effects of non-equilibrium particle distributions resulting from rapid deuterium-...
This thesis presents work on two topics related to nuclear fusion in plasmas. The first topic is the...
We study nuclear fusion processes in a deuteron plasma under a combination of conditions such that, ...
Fusion reactivity represents the integration of fusion cross-sections and the velocity distributions...
With ever-increasing interest in manned space missions, engineers are exploring a variety of excitin...
We argue that the Maxwellian approximation can essentially underestimate the rates of some nuclear r...
AbstractLinear kinetic Monte Carlo particle transport models are frequently employed in fusion plasm...
By reaching the first wall of a fusion reactor, charged plasma particles, electrons and ions are rec...
We propose and we justify a Monte-Carlo algorithm which solves a spatially homogeneous kinetic equat...
We propose and we justify a Monte-Carlo algorithm which solves a spatially homogeneous kin...
At the birth of the hot point in an Inertial Confinement Fusion experiment, the plasma at the center...
We present an ion kinetic model describing the ignition and burn of the deuterium-tritium fuel of in...
In this thesis several novel techniques are developed to simulate fusion events in an isotropic, ele...
We present an ion kinetic model describing the ignition and burn of the deuterium-tritium fuel of in...
This thesis presents work on two topics related to nuclear fusion in plasmas. The first topic is th...
We investigate the effects of non-equilibrium particle distributions resulting from rapid deuterium-...
This thesis presents work on two topics related to nuclear fusion in plasmas. The first topic is the...
We study nuclear fusion processes in a deuteron plasma under a combination of conditions such that, ...
Fusion reactivity represents the integration of fusion cross-sections and the velocity distributions...
With ever-increasing interest in manned space missions, engineers are exploring a variety of excitin...
We argue that the Maxwellian approximation can essentially underestimate the rates of some nuclear r...
AbstractLinear kinetic Monte Carlo particle transport models are frequently employed in fusion plasm...
By reaching the first wall of a fusion reactor, charged plasma particles, electrons and ions are rec...