Xianzhou Shao, Junshuai Chai, Min Liao, Jiahui Duan, Fengbin Tian, Xiaoyu Ke, Xiaoqing Sun, Hao Xu, J. Xiang, Xiaolei Wang, Wenwu Wang
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引用次数: 0
Abstract
The endurance degradation mechanism in Si FeFET has attracted great research interest. However, the reports mainly focused on large-scale devices, owing to the external current measurement limitations of modern equipment. In this work, we study the endurance degradation mechanism in the scaled n-FeFET by in-situ Vth measurement to overcome the size limitation. We find that excess electron injection rather than hole injection plays a key role in the charge trapping behavior. As the endurance cycles increase, the Vth after the program pulse positively shifts due to less electron de-trapping. The Vth after erase pulse negatively shifts due to more hole trapping when the Vg changes from -1V to -4V and no hole de-trapping occurs when the Vg changes from -4V to 0 V. The donor trap generation and hole trapping are the dominant factors of endurance failure in the scaled nFeFET.
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