The charging and discharging of stress-generated traps inside thin silicon oxide

Proceedings International Conference on Microelectronic Test Structures Pub Date : 1995-03-22 DOI:10.1109/ICMTS.1995.513979

R. S. Scott, D. Dumin

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引用次数: 3

Abstract

Excess high-voltage stress-generated low-level leakage currents through 10 nm silicon oxides, previously described as DC currents, are shown to decay to the limit of detection given adequate observation time and, thus, have no discernible DC component. A physical model is presented which describes the majority of the excess low-level leakage currents in terms of the charging and discharging of traps previously generated by the high voltage stress. Excess low-level leakage currents measured with voltage pulses with polarity opposite to that of the stress voltage are found to contain an additional current component, which is explained by the transient charging and discharging of certain traps inside of the oxide. Evidence is presented which suggests that an oxide trap generated by the high-voltage stress can contain either a positive or a negative charge, in addition to being neutral and that the traps are located near both oxide interfaces. All of the trap charging and discharging currents can be explained by the flow of electrons into and out of traps generated by the high voltage stress, without resorting to the flow of holes in the oxide.

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薄氧化硅内部应力生成阱的充放电

过量高压应力产生的低水平泄漏电流通过10纳米硅氧化物，以前被描述为直流电流，显示衰减到检测的极限，给予足够的观察时间，因此，没有可识别的直流成分。提出了一个物理模型，该模型描述了大多数过剩的低电平泄漏电流，即先前由高压应力产生的陷阱的充放电。用与应力电压极性相反的电压脉冲测量过量的低电平泄漏电流，发现含有额外的电流成分，这可以用氧化物内部某些陷阱的瞬态充放电来解释。证据表明，由高压应力产生的氧化阱除了是中性的外，还可以含有正电荷或负电荷，并且陷阱位于两个氧化物界面附近。所有阱的充电和放电电流都可以用由高压应力产生的电子进出阱的流动来解释，而不需要借助于氧化物中空穴的流动。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings International Conference on Microelectronic Test Structures

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