Add to ORKGThe Caucny problem for a drift kinetic equation is investigated in the paper aiming at the Monte Carlo method development for the numerical solution of the equation of Focker-Plank. As a result the calculation algorithm for coefficients of the neoclassical diffusion of particles in toroidal magnetic traps has been developed. The code, which makes it possible to calculate coefficients of the particle diffusion in a stellarator has been created. The paper results may find their field of application in the magnetic confinementAvailable from VNTIC / VNTIC - Scientific & Technical Information Centre of RussiaSIGLERURussian Federatio
International audienceThe problem of particle diffusion in position space, as a consequence of elect...
The purpose of this project is to calculate the contribution of field line diffusion to particle dif...
The paper is devoted to construction of mathematical model and computational algorithm for determini...
One of the main challenges for the realization of a working fusion power plant is an increased detai...
For tokamaks the Monte Carlo technique is a powerful method to study kinetic phenom-ena in plasmas...
In order to interpret the expressions of the transport coefficients obtained by the TFT in terms of ...
A numerical method is presented for evaluation of the radial diffusion coefficient, based on the ful...
Methods of calculation of transport coefficients and equilibrium parallel currents using in-tegratio...
"A new method of particle motion control in toroidal magnetic traps with rotational transform using ...
A test-particle weakly interacting with an electrostatic plasma in equilibrium inside a uniform magn...
In the study of charged particle transport in plasmas, numerical techniques for solving the Fokker-P...
The particle diffusion in a stochastic magnetic field is studied by applying the functional integral...
A drift kinetic model for the transport of non-Maxwellian impurities is derived from first principle...
We describe an implementation of a particle orbit-following simulation approach to the Monte Carlo c...
Diffusion of particles from tokamak by stochastization of magnetic field lines Pavel Cahyna Abstract...
International audienceThe problem of particle diffusion in position space, as a consequence of elect...
The purpose of this project is to calculate the contribution of field line diffusion to particle dif...
The paper is devoted to construction of mathematical model and computational algorithm for determini...
One of the main challenges for the realization of a working fusion power plant is an increased detai...
For tokamaks the Monte Carlo technique is a powerful method to study kinetic phenom-ena in plasmas...
In order to interpret the expressions of the transport coefficients obtained by the TFT in terms of ...
A numerical method is presented for evaluation of the radial diffusion coefficient, based on the ful...
Methods of calculation of transport coefficients and equilibrium parallel currents using in-tegratio...
"A new method of particle motion control in toroidal magnetic traps with rotational transform using ...
A test-particle weakly interacting with an electrostatic plasma in equilibrium inside a uniform magn...
In the study of charged particle transport in plasmas, numerical techniques for solving the Fokker-P...
The particle diffusion in a stochastic magnetic field is studied by applying the functional integral...
A drift kinetic model for the transport of non-Maxwellian impurities is derived from first principle...
We describe an implementation of a particle orbit-following simulation approach to the Monte Carlo c...
Diffusion of particles from tokamak by stochastization of magnetic field lines Pavel Cahyna Abstract...
International audienceThe problem of particle diffusion in position space, as a consequence of elect...
The purpose of this project is to calculate the contribution of field line diffusion to particle dif...
The paper is devoted to construction of mathematical model and computational algorithm for determini...