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Computer modeling the motion of charged particles in low frequency electromagnetic field. / Syasko, M. ; Soloviev, I. .

In: JOURNAL OF APPLIED ELECTROMAGNETISM , Vol. 21, No. 1, 16.12.2019, p. 31-41.

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Syasko, M. ; Soloviev, I. . / Computer modeling the motion of charged particles in low frequency electromagnetic field. In: JOURNAL OF APPLIED ELECTROMAGNETISM . 2019 ; Vol. 21, No. 1. pp. 31-41.

BibTeX

@article{4714c8e0548a4dfe9aa62917886ce052,
title = "Computer modeling the motion of charged particles in low frequency electromagnetic field",
abstract = "The problem of computer modeling and visualization of low frequency electromagnetic fields is in the area of interest of such directions as education, research activity, medicine and industry. Visualization helps better understanding the influence of magnetic fields on various physical environments, and a clarifying the physical and mathematical models that are used. In industry visualization is often applied in the tools for non-destructive testing and in magnetic inspection systems. In medicine these fields are traditionally used in magnetotherapy, and at the moment computer modeling and visualization are often the only practical approach to the studying the influence magnetic fields on a living organism. In this work we demonstrate a computer tool both for modeling a magnetic field distribution and the motion of a charged particle in this field. The algorithms are implemented in a special environment Unity. That allows the combination of calculations and visualization and results in considerably lower run-time and the development of a flexible application that may be easily used by physicians. The results of the experiments are given.",
keywords = "computer modeling, visualization",
author = "M. Syasko and I. Soloviev",
year = "2019",
month = dec,
day = "16",
language = "English",
volume = "21",
pages = "31--41",
journal = "JOURNAL OF APPLIED ELECTROMAGNETISM ",
issn = "1109-1606",
publisher = "National Technical University of Athens (NTUA)",
number = "1",

}

RIS

TY - JOUR

T1 - Computer modeling the motion of charged particles in low frequency electromagnetic field

AU - Syasko, M.

AU - Soloviev, I.

PY - 2019/12/16

Y1 - 2019/12/16

N2 - The problem of computer modeling and visualization of low frequency electromagnetic fields is in the area of interest of such directions as education, research activity, medicine and industry. Visualization helps better understanding the influence of magnetic fields on various physical environments, and a clarifying the physical and mathematical models that are used. In industry visualization is often applied in the tools for non-destructive testing and in magnetic inspection systems. In medicine these fields are traditionally used in magnetotherapy, and at the moment computer modeling and visualization are often the only practical approach to the studying the influence magnetic fields on a living organism. In this work we demonstrate a computer tool both for modeling a magnetic field distribution and the motion of a charged particle in this field. The algorithms are implemented in a special environment Unity. That allows the combination of calculations and visualization and results in considerably lower run-time and the development of a flexible application that may be easily used by physicians. The results of the experiments are given.

AB - The problem of computer modeling and visualization of low frequency electromagnetic fields is in the area of interest of such directions as education, research activity, medicine and industry. Visualization helps better understanding the influence of magnetic fields on various physical environments, and a clarifying the physical and mathematical models that are used. In industry visualization is often applied in the tools for non-destructive testing and in magnetic inspection systems. In medicine these fields are traditionally used in magnetotherapy, and at the moment computer modeling and visualization are often the only practical approach to the studying the influence magnetic fields on a living organism. In this work we demonstrate a computer tool both for modeling a magnetic field distribution and the motion of a charged particle in this field. The algorithms are implemented in a special environment Unity. That allows the combination of calculations and visualization and results in considerably lower run-time and the development of a flexible application that may be easily used by physicians. The results of the experiments are given.

KW - computer modeling

KW - visualization

UR - http://jae.ece.ntua.gr/current.htm

M3 - Article

VL - 21

SP - 31

EP - 41

JO - JOURNAL OF APPLIED ELECTROMAGNETISM

JF - JOURNAL OF APPLIED ELECTROMAGNETISM

SN - 1109-1606

IS - 1

ER -

ID: 49836881