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An In-Depth Investigation of Physical Mechanisms Governing SANOS Memories Characteristics

机译：深入研究控制SANOS内存特征的物理机制

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The goal of this work is to give a clear physical comprehension of the charge loss mechanisms of SANOS (Si/Al₂O₃/Si₃N₄/SiO₂/Si) memories. Retention at room and high temperature is investigated on different samples through experiments and theoretical modeling. We argue that at room temperature, the charge loss essentially results from the tunneling of the electrons trapped at the nitride interface, and the retention life time increases with the nitride thickness. On the contrary, at high temperature, the trapped charges in the nitride volume quickly redistribute, thanks to the thermal emission process, and they migrate to the nitride interface. Indeed, this result suggests that thin-nitride thicknesses in SANOS devices allow keeping a fast program/erase speed without degrading the retention at high temperature.

机译：这项工作的目的是对SANOS（Si / Al _{2 O _{3 / Si _{3 N _{4 / SiO _{2 / Si）个存储器。通过实验和理论模型研究了不同样品在室温和高温下的保留率。我们认为，在室温下，电荷损失本质上是由在氮化物界面处捕获的电子的隧穿引起的，并且保留寿命随氮化物厚度的增加而增加。相反，在高温下，由于热发射过程，氮化物体积中的俘获电荷迅速重新分布，并迁移到氮化物界面。实际上，该结果表明，SANOS器件中的氮化物厚度薄，可以保持较快的编程/擦除速度，而不会降低高温下的保持力。}}}}}

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来源
《Memory Workshop, 2009. IMW '09》|2009年|1-4|共4页
会议地点 Monterey CA(US);Monterey CA(US)
作者
Bocquet M.; Vianello E.; Molas G.; Perniola L.; Grampeix H.; Martin F.; Colonna J.P.; Papon A.M.; Brianceau P.; Gely M.; De Salvo B.; Pananakakis G.; Ghibaudo G.; Selmi L.;
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CEA, MINATEC, Grenoble;

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aluminium compounds; elemental semiconductors; integrated memory circuits; silicon; silicon compounds; transistors; tunnelling; SANOS memories; Si-Alsub2/subOsub3/sub-Sisub3/subNsub4/sub-SiOsub2/sub-Si; charge loss; charge trapping; electron trapping; high temperature retention; nitride interface; retention lifetime; room temperature retention; temperature 293 K to 298 K; thermal emission; tunneling;

机译：铝化合物;元素半导体;集成存储电路;硅;硅化合物;晶体管;隧道; SANOS存储器; Si-Al _{2 O _{3 -Si _{3 N _{4 -SiO _{2 -Si;电荷损失;电荷陷阱;电子陷阱;高温保持力;氮化物界面;保持寿命;室温保持力;温度293 K至298 K;热辐射;隧道效应;}}}}}

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An In-Depth Investigation of Physical Mechanisms Governing SANOS Memories Characteristics

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