放置在水中的铁原子内壳空位级联衰变过程中能量耗散的蒙特卡洛模拟

IF 1 4区物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY

Journal of Experimental and Theoretical Physics Pub Date : 2024-01-26 DOI:10.1134/s1063776123120178

A. P. Chaynikov, A. G. Kochur, A. I. Dudenko

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引用次数: 0

摘要

摘要我们对置于水中的铁原子内壳空位级联衰变引起的水二次电离过程进行了蒙特卡罗模拟。我们获得了铁原子 K 和 L 壳空位衰变过程中发射的电子和光子的光谱。我们计算了二次电离事件的数量和这些过程所吸收的能量与发生这些过程的球体半径的关系。铁原子中单个 1s 空位的衰变平均会产生 232 次由电子撞击引起的二次电离事件，其中吸收了 3274 eV 的能量，以及 18 次二次光电离事件，其中吸收了 256 eV 的能量。已计算出水中吸收的剂量与铁原子距离的关系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Monte Carlo Simulation of Energy Dissipation during the Cascade Decay of Inner-Shell Vacancies in an Iron Atom Placed in Water

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Monte Carlo Simulation of Energy Dissipation during the Cascade Decay of Inner-Shell Vacancies in an Iron Atom Placed in Water

Abstract

We have performed the Monte Carlo simulation of the processes of secondary ionization of water induced by cascade decays of inner-shell vacancies in an iron atom placed in water. We have obtained the spectra of electrons and photons emitted during the decay of vacancies in the K and L shells of the iron atom. The dependences of the number of secondary ionization events and the energy absorbed as a result of these processes on the radius of the sphere in which such processes occur have been calculated. The decay of a single 1s vacancy in an iron atom generates on the average 232 events of secondary ionization induced by an electron impact, in which the energy of 3274 eV is absorbed, as well as 18 secondary photoionization events, in which the energy of 256 eV is absorbed. The dependences of the dose absorbed in water on the distance from the iron atom have been calculated.

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来源期刊

Journal of Experimental and Theoretical Physics 物理-物理：综合

CiteScore

1.90

自引率

9.10%

发文量

130

审稿时长

3-6 weeks

期刊介绍： Journal of Experimental and Theoretical Physics is one of the most influential physics research journals. Originally based on Russia, this international journal now welcomes manuscripts from all countries in the English or Russian language. It publishes original papers on fundamental theoretical and experimental research in all fields of physics: from solids and liquids to elementary particles and astrophysics.