利用 Geant4-DNA 模拟水的放射性分解:氧气条件下辐照脉冲时间结构的影响

Tuan Anh Le, Hoang Ngoc Tran, Serena Fattori, Viet Cuong Phan, Sebastien Incerti
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引用次数: 0

摘要

常规(CONV)辐照和超高剂量率(UHDR)辐照在水辐射分解过程中产生的 H2O2 的差异仍未完全明了。作为水放射性分解的关键终产物,这种放射性物种的含量较低,这对于研究短时物理事件(电离或激发)期间的高密度能量沉积与FLASH效应的生物反应之间的联系尤为重要。在这项研究中,我们开发了一个新的 Geant4-DNA 化学模型,以模拟在 1 MeV 电子辐照下,液态水吸收不同剂量(0.01、0.1、1 和 2 Gy)的辐照脉冲的时间结构。通过该模型,可以描述在不同氧浓度下,不同光束辐照条件下的光束时间结构,包括脉冲持续时间、脉冲重复频率和脉冲振幅,剂量率范围从 0.01 Gy/s 到约 105 Gy/s。初步结果表明,脉冲的时间结构与不同剂量率下活性氧(ROS)的产生显著减少之间存在相关性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling water radiolysis with Geant4-DNA: Impact of the temporal structure of the irradiation pulse under oxygen conditions
The differences in H2O2 production between conventional (CONV) and ultra-high dose rate (UHDR) irradiations in water radiolysis are still not fully understood. The lower levels of this radiolytic species, as a critical end product of water radiolysis, are particularly relevant for investigating the connection between the high-density energy deposition during short-duration physical events (ionizations or excitations) and biological responses of the FLASH effect. In this study, we developed a new Geant4-DNA chemistry model to simulate radiolysis considering the time structure of the irradiation pulse at different absorbed doses to liquid water of 0.01, 0.1, 1, and 2 Gy under 1 MeV electron irradiation. The model allows the description of the beam's temporal structure, including the pulse duration, the pulse repetition frequency, and the pulse amplitude for the different beam irradiation conditions through a wide dose rate range, from 0.01 Gy/s up to about 105 Gy/s, at various oxygen concentrations. The preliminary results indicate a correlation between the temporal structure of the pulses and a significant reduction in the production of reactive oxygen species (ROS) at different dose rates.
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