Xiaohui Tang, X. Baie, V. Bayot, F. van de Wiele, J. Colinge
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引用次数: 0
摘要
文献中已经报道了几种纳米闪存器件(Nakajima et al. 1996;Guo et al. 1996;Welser et al. 1997)。这些设备基本上是微型EEPROM电池,其中电子通过氧化层的隧道效应注入到浮动存储节点中。由于电子注入引起的浮节点电位的变化改变了薄而窄的SOI MOSFET的阈值电压,这使得在器件中存储信息成为可能。本文介绍了利用Unibond/sup (R)/晶圆和电子束光刻技术制备SOI纳米闪存器件。该器件可以使用5v栅极电压脉冲进行编程和擦除。活性存储区面积为150nm /spl倍/ 150nm。
Several nano flash memory devices have been reported in the literature (Nakajima et al. 1996; Guo et al. 1996; Welser et al. 1997). These devices are basically miniature EEPROM cells in which electrons are injected in a floating storage node by tunnel effect through an oxide layer. The variation of the potential of the floating node due to electron injection modifies the threshold voltage of a thin and narrow SOI MOSFET, which makes it possible to store information in the device. This paper describes the fabrication of an SOI nano flash memory device using Unibond/sup (R)/ wafers and e-beam lithography. The device can be programmed and erased using 5 V gate voltage pulses. The area of the active storage region is 150 nm/spl times/150 nm.
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