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Computer simulation of radiation dose absorption in biological specimens. / Kalatusha, O.A.; Ruban, O.V.; Nemnyugin, S.A.

в: Mathematical Modelling and Geometry, Том 4, № 1, 2016, стр. 41-50.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

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Kalatusha OA, Ruban OV, Nemnyugin SA. Computer simulation of radiation dose absorption in biological specimens. Mathematical Modelling and Geometry. 2016;4(1):41-50.

Author

Kalatusha, O.A. ; Ruban, O.V. ; Nemnyugin, S.A. / Computer simulation of radiation dose absorption in biological specimens. в: Mathematical Modelling and Geometry. 2016 ; Том 4, № 1. стр. 41-50.

BibTeX

@article{eb2e63c59d1941b686f8ee8459d97aea,
title = "Computer simulation of radiation dose absorption in biological specimens",
abstract = "The radiation in biological tissues is considered. It is studied how the kind of a biological tissue determined by its chemical composition and physical characteristics, as well as the beam parameters, affect the radiation depth-dose distribution. Numerical results are obtained using the application using the software package Geant4. The results of our simulations may be us ed for better understanding of processes that play a crucial role in hadron therapy. The efficiency of hadron therapy is based on the Bragg peak phenomenon and more precise localization of the biological effect of a therapeutic beam.",
keywords = "dose-depth distribution, radiation therapy, hadron therapy, Bragg peak, Monte-Carlo simulation",
author = "O.A. Kalatusha and O.V. Ruban and S.A. Nemnyugin",
year = "2016",
language = "English",
volume = "4",
pages = "41--50",
journal = "Mathematical Modelling and Geometry",
issn = "2311-1275",
publisher = "Тверской государственный университет",
number = "1",

}

RIS

TY - JOUR

T1 - Computer simulation of radiation dose absorption in biological specimens

AU - Kalatusha, O.A.

AU - Ruban, O.V.

AU - Nemnyugin, S.A.

PY - 2016

Y1 - 2016

N2 - The radiation in biological tissues is considered. It is studied how the kind of a biological tissue determined by its chemical composition and physical characteristics, as well as the beam parameters, affect the radiation depth-dose distribution. Numerical results are obtained using the application using the software package Geant4. The results of our simulations may be us ed for better understanding of processes that play a crucial role in hadron therapy. The efficiency of hadron therapy is based on the Bragg peak phenomenon and more precise localization of the biological effect of a therapeutic beam.

AB - The radiation in biological tissues is considered. It is studied how the kind of a biological tissue determined by its chemical composition and physical characteristics, as well as the beam parameters, affect the radiation depth-dose distribution. Numerical results are obtained using the application using the software package Geant4. The results of our simulations may be us ed for better understanding of processes that play a crucial role in hadron therapy. The efficiency of hadron therapy is based on the Bragg peak phenomenon and more precise localization of the biological effect of a therapeutic beam.

KW - dose-depth distribution

KW - radiation therapy

KW - hadron therapy

KW - Bragg peak

KW - Monte-Carlo simulation

M3 - Article

VL - 4

SP - 41

EP - 50

JO - Mathematical Modelling and Geometry

JF - Mathematical Modelling and Geometry

SN - 2311-1275

IS - 1

ER -

ID: 7562194