Angular dependence of multiple-bit upset response in static random access memories under heavy ion irradiation 被引量：4

Angular dependence of multiple-bit upset response in static random access memories under heavy ion irradiation

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摘要 Experimental evidence is presented relevant to the angular dependences of multiple-bit upset （MBU） rates and patterns in static random access memories （SRAMs） under heavy ion irradiation. The single event upset （SEU） cross sections under tilted ion strikes are overestimated by 23.9%-84.6%, compared with under normally incident ion with the equivalent linear energy transfer （LET） value of 41 MeV/（mg/cm2）, which can be partially explained by the fact that the MBU rate for tilted ions of 30° is 8.5%-9.8% higher than for normally incident ions. While at a lower LET of - 9.5 MeV/（mg/cm2）, no clear discrepancy is observed. Moreover, since the ion trajectories at normal and tilted incidences are different, the predominant double-bit upset （DBU） patterns measured are different in both conditions. Those differences depend on the LET values of heavy ions and devices under test. Thus, effective LET method should be used carefully in ground-based testing of single event effects （SEE） sensitivity, especially in MBU-sensitive devices. Experimental evidence is presented relevant to the angular dependences of multiple-bit upset （MBU） rates and patterns in static random access memories （SRAMs） under heavy ion irradiation. The single event upset （SEU） cross sections under tilted ion strikes are overestimated by 23.9%-84.6%, compared with under normally incident ion with the equivalent linear energy transfer （LET） value of 41 MeV/（mg/cm2）, which can be partially explained by the fact that the MBU rate for tilted ions of 30° is 8.5%-9.8% higher than for normally incident ions. While at a lower LET of - 9.5 MeV/（mg/cm2）, no clear discrepancy is observed. Moreover, since the ion trajectories at normal and tilted incidences are different, the predominant double-bit upset （DBU） patterns measured are different in both conditions. Those differences depend on the LET values of heavy ions and devices under test. Thus, effective LET method should be used carefully in ground-based testing of single event effects （SEE） sensitivity, especially in MBU-sensitive devices.

作者张战刚刘杰侯明东孙友梅苏弘段敬来莫丹姚会军罗捷古松耿超习凯

机构地区 Institute of Modern Physics University of Chinese Academy of Sciences

出处《Chinese Physics B》 SCIE EI CAS CSCD 2013年第8期529-533,共5页 中国物理B（英文版）

基金 supported by the National Natural Science Foundation of China(Grant Nos.11179003,10975164,10805062,and 11005134)

关键词 single event effects effective LET method multiple-bit upset upset cross section single event effects, effective LET method, multiple-bit upset, upset cross section

分类号 TP333 [自动化与计算机技术—计算机系统结构] O571.6 [理学—粒子物理与原子核物理]

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Angular dependence of multiple-bit upset response in static random access memories under heavy ion irradiation 被引量：4

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