Surface potential and charging of polymer films submitted to defocused electron beam irradiation

Liu, Jing; Zhang, Haibo; Ding, Yue-Hu; Yan, Zhonghua; Tong, Jisheng; Yuan, Ye; Zhao, Qing

doi:10.1016/j.micron.2018.10.002

Cited by 6 publications

(1 citation statement)

References 28 publications

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“…, разносящее генерируемые электроны и дырки в противоположные стороны внутри объема генерации. Ток этих носителей является радиационно-стимулированным током I R , определяемым выражением [8]: [11,12,[24][25][26][27][28]. Суть этой теоретической модели основана на трех базисных уравнениях: уравнение Пуассона, уравнение непрерывности тока носителей заряда и уравнение сохранения баланса зарядов.…”

Section: Kevunclassified

Новый Сценарий Кинетики Зарядки Диэлектриков При Облучении Электронами Средних Энергий

Рау¹,

Татаринцев²

2021

Физика Твердого Тела

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The goal of this paper is first to critical review the charging phenomena occurring during electron deposition in insulating materials. In this research we focus on the elucidation of the charging kinetics including the effects of the electron emission increasing and the electron-radiation defect creation. In order to avoid some misinterpretation and contradiction of the experimental results we include three fundamental key factors. The first, in the consideration we include the density of the initial (intrinsic) and radiation-induced trapping sites, second, we take into account the role of the primary thermalized electrons in the emission, and third, the charging phenomena in steady-state phase is regulated by the electronic filed, generated during charging.

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