Comparative Study of Quick Electron Detrapping and Random Telegraph Signal and Their Dependences on Random Discrete Dopant in Sub-40-nm NAND Flash Memory

Kim T.; He D.; Porter R.; Rivers D.; Kessenich J.; Goda A.

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Comparative Study of Quick Electron Detrapping and Random Telegraph Signal and Their Dependences on Random Discrete Dopant in Sub-40-nm NAND Flash Memory

机译：40纳米以下NAND闪存中快速电子捕获和随机电报信号及其对随机离散掺杂物的依赖性的比较研究

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摘要

In sub-40-nm Flash memory, random discrete dopant (RDD) effect modulates post program/erase (P/E) cycling $V_{t}$ instabilities through quick electron detrapping (QED) as well as random telegraph signal (RTS). In this letter, for the first time, we discuss the QED phenomenon and its physical origin by comparison with RTS phenomenon. P/E cycling stress not only aggravates the RTS but also generates the new phenomenon of QED which results from transiently trapped charges at near-interface defects during program. By applying a new test algorithm, we could successfully extract the QED component from RTS, both of which are modulated by RDD effect and worsen tail bits in multilevel-cell Flash memory.

机译：在低于40 nm的闪存中，随机离散掺杂（RDD）效应通过快速电子去陷获（QED）和随机电报信号（RTS）来调制后编程/擦除（P / E）循环$ V_ {t} $不稳定性。在这封信中，我们首次与RTS现象进行了比较，讨论了QED现象及其物理起源。 P / E循环应力不仅加重了RTS，而且还产生了QED的新现象，这种现象是由于在编程过程中在近界面缺陷处短暂捕获电荷而引起的。通过应用新的测试算法，我们可以成功地从RTS中提取QED分量，这两个分量都受到RDD效应和多级单元闪存中的尾比特恶化的调制。

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来源
《Electron Device Letters, IEEE》 |2010年第2期|P.153-155|共3页
作者
Kim T.; He D.; Porter R.; Rivers D.; Kessenich J.; Goda A.;
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作者单位

Micron Technology, Inc. , Boise, ID, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
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关键词
Flash memory; quick electron detrapping (QED); random discrete dopant (RDD) effect; random telegraph signal (RTS); tunneling front model;

机译：闪存;快速电子陷阱（QED）;随机离散掺杂（RDD）效应;随机电报信号（RTS）;隧道正面模型;

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1. Channel doping concentration and cell program state dependence on random telegraph noise spatial and statistical distribution in 30 nm NAND flash memory [J] . Tomita Toshihiro, Miyaji Kousuke Japanese journal of applied physics . 2015,第4s期

机译：通道掺杂浓度和单元编程状态依赖于30 nm NAND闪存中随机电报噪声的空间和统计分布
2. Random Telegraph Signal in Flash Memory: Its Impact on Scaling of Multilevel Flash Memory Beyond the 90-nm Node [J] . Kurata H., Otsuga K., Kotabe A., IEEE Journal of Solid-State Circuits . 2007,第6期

机译：闪存中的随机电报信号：其对超过90nm节点的多级闪存扩展的影响
3. A Novel Random Telegraph Signal Method to Study Program/Erase Charge Lateral Spread and Retention Loss in a SONOS Flash Memory [J] . Ma H-C.Chou Y-L.Chiu J-P.Chung Y-T.Lin T-Y.Wang T.Chao Y-P.Chen K-C.Lu C-Y. Electron Devices, IEEE Transactions on . 2011,第3期

机译：一种新的随机电报信号方法，用于研究SONOS闪存中的程序/擦除电荷横向扩展和保留损耗
4. Cycling pattern and read/bake conditions dependence of random telegraph noise in decananometer NAND flash arrays [C] . Miccoli Carmine, Paolucci Giovanni M., Compagnoni Christian Monzio, IEEE International Reliability Physics Symposium . 2015

机译：an仪NAND闪存阵列中随机电报噪声的循环模式和读取/烘烤条件相关性
5. Measurements, modeling, and simulation of semiconductor/gate dielectric defects using random telegraph signals. [D] . Nour, Mohamed. 2015

机译：使用随机电报信号进行半导体/栅极介电缺陷的测量，建模和仿真。
6. Random Telegraph Noise in 3D NAND Flash Memories [O] . Alessandro S. Spinelli, Gerardo Malavena, Andrea L. Lacaita, 2021

机译：3D NAND闪存记忆中的随机电报噪声
7. Number of traps and trap depth position on statistical distribution of random telegraph noise in scaled NAND flash memory [O] . Toshihiro Tomita, Kousuke Miyaji 2016

机译：缩放NAND闪存随机电报噪声统计分布的陷阱数量和陷阱深度位置

Comparative Study of Quick Electron Detrapping and Random Telegraph Signal and Their Dependences on Random Discrete Dopant in Sub-40-nm NAND Flash Memory

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