采用Ni-GaSb合金的自对准金属S/D GaSb p- mosfet

C. Zota, S. H. Kim, Y. Asakura, M. Takenaka, S. Takagi
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引用次数: 9

摘要

近年来,由于其高体电子/空穴迁移率和光电子特性,GaSb引起了人们的极大兴趣[1]。特别是,高空穴迁移率使GaSb成为III-V材料之一,有望用于p- mosfet和完全集成的CMOS应用。然而,GaSb mosfet的器件技术尚未得到充分发展。在这项工作中,我们研究了一种新的GaSb p- mosfet源极和漏极(S/D)形成技术。GaSb(通常是III-V)中S/D形成的问题之一是掺杂剂的溶解度低,并且需要对掺杂剂进行高温退火活化。然而,GaSb/氧化物界面的热稳定性较低,因此强烈需要低热收支的S/D形成过程[2]。此外,对于深度缩放的MOSFET制造,自对准S/D形成是强制性的。基于这些原因,我们引入了一种类似水杨化物的自对准金属S/D工艺,将Ni加入到GaSb中。在这项研究中,我们介绍了Ni和GaSb直接反应形成的Ni-GaSb合金的表征结果,该合金适用于GaSb p- mosfet的S/D。最后,我们首次展示了具有自对准Ni-GaSb合金S/D的GaSb p-MOSFET,这使我们能够在低至250°C的温度下制造mosfet。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Self-aligned metal S/D GaSb p-MOSFETs using Ni-GaSb alloys
GaSb has stirred a significant interest over the recent years, due to its high bulk electron/hole mobility and optoelectronic properties [1]. Particularly, the high hole mobility makes GaSb one of the III-V materials promising for p-MOSFETs and fully-integrated CMOS applications. However, the device technologies for GaSb MOSFETs have not been fully developed yet. In this work, we address a novel formation technology of source and drain (S/D) for GaSb p-MOSFETs. One of the problems of the S/D formation in GaSb (and generally III-V) is the low dopant solubility and the necessity of high temperature annealing for dopant activation. However, thermal stability of the GaSb/oxide interfaces is low and, therefore, a S/D formation process with low thermal budget is strongly required [2]. Also, for deeply-scaled MOSFET fabrication, self-aligned S/D formation is mandatory. For these reasons, we introduce a salicide-like self-aligned metal S/D process by using Ni into GaSb. In this study, we present the results of the characterization of Ni-GaSb alloys formed by direct reaction between Ni and GaSb, which are suitable for S/D in GaSb p-MOSFETs. Finally, we demonstrate, for the first time, a GaSb p-MOSFET with self-aligned Ni-GaSb alloy S/D, which allows us to fabricate MOSFETs at temperature as low as 250°C.
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