Investigation of Retention Characteristics for Trap-Assisted Tunneling Mechanism in Sub 20-nm NAND Flash Memory

Kyunghwan Lee; Hyungcheol Shin

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Investigation of Retention Characteristics for Trap-Assisted Tunneling Mechanism in Sub 20-nm NAND Flash Memory

机译：20nm以下NAND闪存中陷阱辅助隧穿机制的保留特性研究

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In this paper, retention characteristics of the trap-assisted tunneling (TAT) mechanism are investigated in sub 20-nm NAND flash memory. Total charge loss source for the TAT mechanism (ΔV_th(TAT)) becomes larger with baking temperature, while the source for the detrapping mechanism is almost constant. This temperature dependence of the TAT mechanism becomes larger as program/erase cycling stress increases. Also, this trend is much larger in the highest programmed threshold voltage distribution state. By comparing activation energies of the TAT and the detrapping mechanisms, it was found that the TAT mechanism is very affected by trap density as well as the strength of the electric field in the tunneling oxide layer. To scale down, lifetime of the device can be rapidly reduced due to the decreased time-constant (τ) of the TAT mechanism.

机译：本文研究了低于20nm的NAND闪存中陷阱辅助隧穿（TAT）机制的保留特性。随着烘烤温度的升高，TAT机理的总电荷损失源（ΔV_{th（TAT））变大，而去陷阱机理的总电荷损失源几乎恒定。随着编程/擦除循环压力的增加，TAT机制的温度依赖性变得更大。同样，在最高编程阈值电压分布状态下，这种趋势要大得多。通过比较TAT的活化能和去陷阱机理，发现TAT机理受到陷阱密度以及隧穿氧化物层中电场强度的很大影响。为了缩小规模，由于TAT机制的时间常数（τ）减小，可以快速缩短设备的使用寿命。}

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《IEEE transactions on device and materials reliability》 |2017年第4期|758-762|共5页
作者
Kyunghwan Lee; Hyungcheol Shin;
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正文语种 eng
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Tunneling; Flash memories; Electron traps; Electric fields; Temperature dependence; Thermal energy;

机译：隧道;闪存;电子陷阱;电场;温度依赖性;热能;

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1. Separation of Corner Component in TAT Mechanism in Retention Characteristics of Sub 20-nm NAND Flash Memory [J] . Lee K., Kang M., Seo S., IEEE Electron Device Letters . 2014,第1期

机译：20nm以下NAND闪存保留特性中TAT机制中拐角成分的分离
2. Cell Pattern Dependency of Charge Failure Mechanisms During Short-Term Retention in 3-D NAND Flash Memories [J] . Woo Changbeom, Kim Shinkeun, Shin Hyungcheol IEEE Electron Device Letters . 2020,第11期

机译：3-D NAND闪存中短期保留期间电荷失效机制的电池图案依赖性
3. Analysis of read disturbance mechanism in retention of sub-20 nm NAND flash memory [J] . Kang Duckseoung, Lee Kyunghwan, Kwon Sangjin, Japanese journal of applied physics . 2015,第4s期

机译：20 nm以下NAND闪存保留中的读取干扰机制分析
4. Analysis of failure mechanisms in erased state of sub 20-nm NAND Flash memory [C] . Lee Kyunghwan, Kang Duckseoung, Shin Hyungcheol, Proceedings of the 44th European Solid State Device Research Conference . 2014

机译：20 nm以下NAND闪存擦除状态下的故障机制分析
5. NAND flash memory: Characterization, analysis, modelling, and mechanisms [D] . Cai, Yu 2012

机译：NAND闪存：表征，分析，建模和机制
6. CMOS-compatible ferroelectric NAND flash memory for high-density low-power and high-speed three-dimensional memory [O] . Min-Kyu Kim, Ik-Jyae Kim, Jang-Sik Lee 2021

机译：CMOS兼容的铁电NAND闪存用于高密度低功耗和高速三维内存
7. Impact of Cycling Induced Intercell Trapped Charge on Retention Charge Loss in 3-D NAND Flash Memory [O] . Xinlei Jia, Lei Jin, Wei Hou, 2020

机译：循环诱导的Intercell捕获电荷对3-D NAND闪存中的保留电荷损耗的影响
8. Effect of Radiation Exposure on the Retention of Commercial NAND Flash Memory [R] . Oldham, T. R., Chen, D., Friendlich, M., 2011

机译：辐射暴露对商用NaND闪存保留的影响

Investigation of Retention Characteristics for Trap-Assisted Tunneling Mechanism in Sub 20-nm NAND Flash Memory

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