Add to ORKGAbstract: The experiment, which is in the axial-symmetric relativistic electron flux injecting from the end face into the cylindrical chamber (material – Fe) filled with the air, is considered. The mathematical model contains the 2-D non-stationary Maxwell equations in cylindrical coordinate system, the equations for computing the air conductivity in the chamber and the particle simulation algorithm for the relativistic electron flux. For integrating the Maxwell equations the quasianalitic interpolation technique is used. The computation of the current density that is realized in the particle simulation algorithm is based on the charge conservation in grid cells. The technique of the parallel computations at multiprocessor with di...
This work presents a complex multiphysics model of an electron microscope in ANSYSFluent software. A...
A 1-1/2 dimensional electrostatic, relativistic, plasma simulation model was constructed, implemente...
Abstract: Different models which describe three–dimensional electromagnetic fields accordi...
Abstract: The electromagnetic field generation by an ionizing radiation source in air and ...
The particle-in-cell method is coupled with boundary-fitted coordinates in order to realistically mo...
Abstract: The 3-D mathematical model of the electromagnetic field’s radiation generation i...
We have developed a 2.5-dimensional electromagnetic particle simulation code using the particle-in-c...
We present a charge-conservative electromagnetic particle-in-cell (EM-PIC) algorithm optimized for t...
We discuss the feasibility of an application of an implicit finite-difference approximation to calcu...
In this thesis we study numerical methods for the approximate solution of problems arising in electr...
The particle-in-cell method is coupled with boundary-fitted coordinates in order to realistically mo...
Abstract: The electromagnetic fields generated near to object placed in the vacuum chamber...
We show the resunts of three dimensional PIC (Particle-In-Cell) simulation of relativistic electron-...
Abstract: The experiment on electromagnetic strength testing of objects is considered. By ...
Abstract: Methods for a numerical solution of Maxwell's equations in the quasi-stationary ...
This work presents a complex multiphysics model of an electron microscope in ANSYSFluent software. A...
A 1-1/2 dimensional electrostatic, relativistic, plasma simulation model was constructed, implemente...
Abstract: Different models which describe three–dimensional electromagnetic fields accordi...
Abstract: The electromagnetic field generation by an ionizing radiation source in air and ...
The particle-in-cell method is coupled with boundary-fitted coordinates in order to realistically mo...
Abstract: The 3-D mathematical model of the electromagnetic field’s radiation generation i...
We have developed a 2.5-dimensional electromagnetic particle simulation code using the particle-in-c...
We present a charge-conservative electromagnetic particle-in-cell (EM-PIC) algorithm optimized for t...
We discuss the feasibility of an application of an implicit finite-difference approximation to calcu...
In this thesis we study numerical methods for the approximate solution of problems arising in electr...
The particle-in-cell method is coupled with boundary-fitted coordinates in order to realistically mo...
Abstract: The electromagnetic fields generated near to object placed in the vacuum chamber...
We show the resunts of three dimensional PIC (Particle-In-Cell) simulation of relativistic electron-...
Abstract: The experiment on electromagnetic strength testing of objects is considered. By ...
Abstract: Methods for a numerical solution of Maxwell's equations in the quasi-stationary ...
This work presents a complex multiphysics model of an electron microscope in ANSYSFluent software. A...
A 1-1/2 dimensional electrostatic, relativistic, plasma simulation model was constructed, implemente...
Abstract: Different models which describe three–dimensional electromagnetic fields accordi...