Three Level Charge Pumping On Dielectric Hafnium Oxide Gate

2022 IEEE International Integrated Reliability Workshop (IIRW) Pub Date : 2022-10-09 DOI:10.1109/IIRW56459.2022.10032750
Y. Raffel, M. Drescher, R. Olivo, M. Lederer, R. Hoffmann, L. Pirro, T. Chohan, T. Kämpfe, K. Seidel, S. De, J. Heitmann
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引用次数: 2

Abstract

A major reliability concern in modern high-k field effect transistors (FETs) resembles the defect density distribution within the hafnium oxide layer as well as its interaction with the interfacial oxide layer. For a deeper understanding of the distribution of charged traps both energetically as well as spatially, it is essential to upgrade from a two level charge pumping scheme to a three level scheme. Through variation in pulse width and amplitude of a subsequent second level pulse, defect energy and location can be extracted inside the gate stack, which is important to understand the overall reliability impact of these traps onto the device properties.
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介质氧化铪栅极上的三能级电荷泵送
现代高k场效应晶体管(fet)的主要可靠性问题类似于氧化铪层内的缺陷密度分布及其与界面氧化层的相互作用。为了更深入地了解带电阱的能量和空间分布,有必要将两能级电荷泵浦方案升级为三能级电荷泵浦方案。通过改变脉冲宽度和随后的二级脉冲幅度,可以提取栅极堆叠内部的缺陷能量和位置,这对于了解这些陷阱对器件性能的整体可靠性影响非常重要。
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2022 IEEE International Integrated Reliability Workshop (IIRW)
2022 IEEE International Integrated Reliability Workshop (IIRW)
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