Effect of the ion mass and energy on the response of 70-nm SOI transistors to the ion deposited charge by direct ionization

2009 European Conference on Radiation and Its Effects on Components and Systems Pub Date : 1900-01-01 DOI:10.1109/radecs.2009.5994707

M. Raine, M. Gaillardin, J. Sauvestre, O. Flament, A. Bournel, V. Aubry-Fortuna

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引用次数: 1

Abstract

The response of SOI transistors under heavy ion irradiation is analyzed using Geant4 and Synopsys Sentaurus device simulations. The ion mass and energy has a significant impact on the radial ionization profile of the ion deposited charge. For example, for an identical LET, the higher the ion energy per nucleon, the wider the radial ionization track. For a 70-nm SOI technology, the track radius of high energy ions (> 10 MeV/a) is larger than the transistor sensitive volume; part of the ion charge recombines in the highly doped source or drain regions and does not participate to the transistor electric response. At lower energy (< 10 MeV/a), as often used for ground testing, the track radius is smaller than the transistor sensitive volume, and the entire charge is used for the transistor response. The collected charge is then higher, corresponding to a worst-case response of the transistor. Implications for the hardness assurance of highly-scaled generations are discussed.

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离子质量和能量对直接电离70 nm SOI晶体管对离子沉积电荷响应的影响

利用Geant4和Synopsys Sentaurus器件模拟分析了SOI晶体管在重离子辐照下的响应。离子质量和能量对离子沉积电荷的径向电离分布有显著影响。例如，对于相同的LET，每核子的离子能量越高，径向电离轨迹越宽。对于70 nm SOI技术，高能离子(> 10 MeV/a)的径迹半径大于晶体管的敏感体积;部分离子电荷在高掺杂的源极或漏极区重新结合，不参与晶体管的电响应。在能量较低时(< 10 MeV/a)，通常用于地面测试，轨道半径小于晶体管敏感体积，整个电荷用于晶体管响应。然后收集的电荷更高，对应于晶体管的最坏情况响应。讨论了高尺度世代硬度保证的意义。

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2009 European Conference on Radiation and Its Effects on Components and Systems

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