학술논문

Approximation of the Boundary Trajectory of a Short-Focus Electron Beam using Third-Order Root-Polynomial Functions and Recurrent Matrixes Approach

Document Type

Conference

Author

Melnyk, Igor; Tuhai, Serhii; Skrypka, Mykhailo; Pochynok, Alina; Kovalchuk, Dmytro

Source

2023 International Conference on Information and Digital Technologies (IDT) Information and Digital Technologies (IDT), 2023 International Conference on. :133-138 Jun, 2023

Subject

Bioengineering
Communication, Networking and Broadcast Technologies
Components, Circuits, Devices and Systems
Computing and Processing
General Topics for Engineers
Power, Energy and Industry Applications
Signal Processing and Analysis
Electron beams
Optimization methods
High-voltage techniques
Space charge
Electron guns
Approximation algorithms
Iterative algorithms
Interpolation
Approximation
Root-Polynomial Function
Least-Square Method
Arithmetic-Logical Equation
Recurrent Matrix

Language

ISSN

2575-677X

Abstract

A new approach for approximating the ravine function, which corresponds to the boundary trajectory of a short-focus electron beam, propagated in ionized gas with compensation of the space charge of electrons, is proposed in the paper. The algorithm is based on applying root-polynomial functions and a recurrent matrix approach. The proposed algorithm of approximation is suitable for defining the boundary trajectories of electron beams, formed by high voltage glow discharge electron guns. Test numerical experiments of the approximation of the experimental data by using the third order root-polynomial functions are also considered.

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