ANALYTICAL PROPOSAL FOR THE ASSESSMENT OF THE MOLECULAR EXCITATION LEVELS TO THE MEAN EXCITATION ENERGY: APPLICATION TO THE WATER MOLECULE

IF 0.1 Q4 PHYSICS, MULTIDISCIPLINARY

Anales AFA Pub Date : 2021-01-15 DOI:10.31527/ANALESAFA.2020.31.4.157

F. Geser, M. Valente

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Abstract

The mean excitation energy is a fundamental quantity in radiation physics, concerning energy deposition in matter and absorbed dose analytical estimations for charged particles. The stopping of swift ions in different materials strongly depends on this parameter among others. This work intends to fill in part, an empty hole in the theory of stopping power: the need of analitically and theoretically assess the hIi-value for materials. The definition of the mean excitation energy using the dielectric response function is analytically integrable if the inelastic cross section parameters are known. Some dielectric models were studied, aimed at calculating the hIi-value for liquid water by theoretical means, reaching the conclusion that a decay of the order of ω −2 in frequency (energy) is needed as weak condition of the optical energy-loss function for the integrals to converge. Afterwards, the first four discrete excitation levels and the diffuse bands for water are treated in a fully analytical scheme, and further compared with numerical results, providing the contribution of these levels to hIi, with the aim of testing the proposed analytical model.

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分子激发能级对平均激发能的评价分析方案:在水分子中的应用

平均激发能是辐射物理中的一个基本量，涉及物质中的能量沉积和带电粒子的吸收剂量分析估计。在不同的材料中，快速离子的停止在很大程度上取决于这个参数。本工作旨在部分填补停止力理论的空白:对材料的hii值进行分析和理论评估的需要。如果非弹性截面参数已知，用介电响应函数定义的平均激发能是解析可积的。研究了一些介电介质模型，用理论方法计算了液态水的hii值，得出了频率(能量)ω−2阶的衰减是光学能量损失函数收敛的弱条件。然后，对水的前四个离散激励能级和扩散带进行全解析处理，并进一步与数值结果进行比较，提供这些能级对hIi的贡献，目的是验证所提出的解析模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Anales AFA PHYSICS, MULTIDISCIPLINARY-

CiteScore

0.40

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0.00%

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