S. Lai, H. Lue, T. Hsu, C. Wu, Li-yang Liang, P. Du, C. Chiu, Chih-Yuan Lu
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引用次数: 5
摘要
垂直通道(VC) 3D NAND闪存可分为两种通道形成类型:(1)“u型”串,其中BL和源都连接在顶部,因此通道电流以u型方向流动;(2)“底部源”,其中源连接在底部,因此通道电流只以一种方式流动。对于单栅垂直通道(SGVC) 3D NAND架构[1],也可以开发底源结构。给出了具体的阵列解码方法。在这项工作中,广泛研究了底源处理和薄多通道形成的挑战。研究发现,两步聚晶的形成和底部凹槽的控制是影响器件初始性能的两个关键因素。一般来说,采用额外的聚间隔蚀刻技术的两步聚形成似乎会导致聚迁移率和器件阈下斜率的降低。需要充分的热退火来恢复损伤。此外,底部连接需要一个优雅的凹槽控制,以更好地读取电流以及底部接地选择晶体管(GSL)器件优化。
A Bottom-Source Single-Gate Vertical Channel (BS-SGVC) 3D NAND Flash Architecture and Studies of Bottom Source Engineering
Vertical channel (VC) 3D NAND Flash may be categorized into two types of channel formation: (1) "U-turn" string, where both BL and source are connected at top thus channel current flows in a U-turn way; (2) "Bottom source", where source is connected at the bottom thus channel current flows only in one way. For the single-gate vertical channel (SGVC) 3D NAND architecture [1], it is also possible to develop a bottom source structure. The detailed array decoding method is illustrated. In this work, the challenges of bottom source processing and thin poly channel formation are extensively studied. It is found that the two-step poly formation and the bottom recess control are two key factors governing the device initial performance. In general, the two-step poly formation with additional poly spacer etching technique seems to cause degradation of both the poly mobility and device subthreshold slope. Sufficient thermal annealing is needed to recover the damage. Moreover, the bottom connection needs an elegant recess control for better read current as well as bottom ground-select transistor (GSL) device optimizations.
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