热稳定性
材料科学
制作
光电子学
热的
切换时间
降级(电信)
理论(学习稳定性)
快速切换
锗
电子工程
计算机科学
电气工程
硅
物理
热力学
化学工程
工程类
病理
电压
机器学习
替代医学
医学
作者
Lun Wang,Jinyu Wen,Zixuan Liu,J. Chen,Hao Tong,Xiangshui Miao
标识
DOI:10.1109/led.2023.3272884
摘要
Thermal stability and switching speed of ovonic threshold switching (OTS) selector are key elements for its high-speed memory application. However, current methods tend to introduce over complicated elements and even toxic elements which will improve fabrication process complexity and be environment unfriendly. In this work, we studied a Ge-Te based OTS selector with Ge intercalated layers inserted in OTS layer. Through Poole-Frenkel model fitting, we found that the Ge intercalated layers introduced energy barrier, reducing device off-current while improving its thermal stability. The optimized device showed a thermal stability improvement of more than 180°C. In the meantime, the optimized device had good switching performance with fast switching speed of 8.2 ns, low off-current of 10 nA, and endurance of ${1}.{3} \times {10}^{{10}}$ . After a 350°C annealed process, the device performance showed good uniformity and almost no degradation. This work provides experiment guidance of the high thermal stability requirement for OTS selectors.
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