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引用次数: 40
摘要
本文介绍了在亚100nm SOI FinFET技术中由高能粒子诱导的瞬态电荷收集,目的是估计SEU(单事件扰动)和MBU(多事件扰动)的灵敏度。利用MUSCA SEP3平台的动态电荷传输和收集模型进行了估计,并与TCAD模拟进行了比较。该预测平台采用多尺度建模和基于物理的蒙特卡罗方法,不仅提供了器件灵敏度,还研究了不断发展的技术和新兴的SEE机制。
Modeling of radiation-induced single event transients in SOI FinFETS
This work presents the transient charge collection induced by energetic particles in sub-100 nm SOI FinFET technologies with the aim of estimating the SEU (Single Event Upset) and MBU (Multiple Event Upset) sensitivities. The estimates are performed with the dynamic charge transport and collection model of the MUSCA SEP3 platform and compared to TCAD simulations. The predictive platform works with a multi-scales modeling and physics-based Monte-Carlo approach and provides the device sensitivity but also investigates evolving technologies and emerging SEE mechanisms.
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