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Theoretical Analysis of the Radiation-Induced Conductivity in Polymers Exposed to Pulsed and Continuous Electron Beams

机译：脉冲和连续电子束照射下聚合物辐射诱导电导率的理论分析

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摘要

We have performed comparative numerical calculations using a multiple trapping (MT) formalism with an exponential and an aggregate two-exponential trap distributions for describing two mostly used experimental setups for studying the radiation-induced conductivity (RIC) and the time-of-flight (TOF) effects. Computations have been done for pulsed and long-time electron-beam irradiations in a small-signal regime. Predictions of these two approaches differ appreciably in both setups. The classical MT approach proved very popular in photoconductive polymers generally and in molecularly doped polymers in particular, while a newly proposed complex MT worked well in common polymers. It has been shown that the complex MT successfully accounts for the presence of inherent deep traps, which may or may not have an energy distribution.

机译：我们已经使用具有指数和聚集的两个指数陷阱分布的多重俘获（MT）形式主义进行了比较数值计算，用于描述研究辐射诱导电导率（RIC）和飞行时间（ TOF）效果。已经在小信号状态下对脉冲和长时间电子束辐射进行了计算。这两种方法的预测在两种设置中都明显不同。事实证明，经典的MT方法在光电导聚合物中尤其是在分子掺杂的聚合物中非常受欢迎，而新提出的复合MT在普通聚合物中效果很好。已经表明，复杂的MT成功地解决了固有的深陷阱的存在，这些陷阱可能具有也可能没有能量分布。

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期刊名称 Polymers
作者
Andrey P. Tyutnev; Vladimir S. Saenko; Aleksey D. Zhadov; Dmitriy A. Abrameshin;
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年(卷),期 2020(12),3
年度 2020
页码 -1
总页数 10
原文格式 PDF
正文语种
中图分类分子生物学;
关键词
radiation-induced conductivity; polymers; numerical calculations; multiple trapping model; time-resolved transient currents; transit time effects;

机译：辐射感应电导率;聚合物;数值计算;多重俘获模型;时间分辨瞬态电流;瞬态时间效应;

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专利

1. Theoretical Analysis of the Radiation-Induced Conductivity in Polymers Exposed to Pulsed and Continuous Electron Beams [J] . International journal of applied mechanics . 2020,第3期

机译：暴露于脉冲和连续电子束的聚合物中辐射诱导电导率的理论分析
2. Theoretical description of the prompt component of pulsed radiation-induced conductivity in polymers in terms of the ion pair mechanism of radiolysis [J] . Tyutnev AP, Ikhsanov RS, Saenko VS, High Energy Chemistry . 2008,第4期

机译：辐射分解中离子对机理对聚合物中脉冲辐射诱导电导率迅速成分的理论描述
3. Radiation-induced conductivity in electron-beam irradiated insulating polymer films [J] . Yang G.M., Sessler G.M. IEEE Transactions on Electrical Insulation . 1992,第4期

机译：电子束辐照绝缘聚合物薄膜中的辐射诱导电导率
4. Radiation-induced conductivity in electron-beam irradiated insulating polymer films [C] . Yang, G.M., Sessler, . 1991

机译：电子束辐照绝缘聚合物膜中的辐射诱导电导率
5. Electron beam induced conductivity effect of polymer resists and charging induced electron beam deflection simulation in electron beam lithography. [D] . Hwu, Justin Jia-Jen. 2000

机译：聚合物抗蚀剂的电子束感应电导率效应和电子束光刻中的电荷感应电子束偏转模拟。
6. Modified Thermal Dielectric and Electrical Conductivityof PVDF-HFP/LiClO4 Polymer Electrolyte Films by 8 MeV ElectronBeam Irradiation [O] . Yesappa Laxmayyaguddi, Niranjana Mydur, Ashokkumar Shankar Pawar, 2018

机译：修改后的导热介电和电导率8 MeV电子制备PVDF-HFP / LiClO4聚合物电解质膜光束照射
7. Mechanisms of brittle fracture of solids exposed to intense-pulsed- electron-beams [O] . A. N. Valyaev 2015

机译：暴露于强脉冲电子束的固体脆性断裂机制
8. Experimental and Theoretical Estimation of Excited Species Generation in Pulsed Electron Beam-Generated Plasmas Produced in Pure Argon, Nitrogen, Oxygen, and Their Mixtures [R] . Lock, E. H., Fernsler, R. F., Slinker, S., 2011

机译：纯氩气，氮气，氧气及其混合物产生的脉冲电子束生成等离子体激发态的实验和理论估算

Theoretical Analysis of the Radiation-Induced Conductivity in Polymers Exposed to Pulsed and Continuous Electron Beams

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