Ni在与n/sup +/ GaAs形成超低阻Ni- ge - au欧姆接触中的作用研究

1996 Conference on Optoelectronic and Microelectronic Materials and Devices. Proceedings Pub Date : 1996-12-08 DOI:10.1109/COMMAD.1996.610140

N. Lumpkin, G. Lumpkin

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引用次数: 1

摘要

镍通常被认为在gaas基器件的合金Au-Ge欧姆触点中起湿润剂的作用。然而，在优化超低电阻欧姆接触方面的工作表明，Ni起着更复杂的作用。我们使用立方中心复合实验和电子微束技术研究了一系列不同镍含量的Ni- au - ge合金，这使我们能够表征合金的微观结构，掺杂分布和接触电阻作为Ni含量的函数。我们得出结论，Ni的数量必须与Ge和Au的数量紧密匹配，才能形成超低电阻触点。

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Investigation of the role of Ni in forming ultra-low resistance Ni-Ge-Au ohmic contacts to n/sup +/ GaAs

Nickel is commonly thought to act as a wetting agent in alloyed Au-Ge ohmic contacts for GaAs-based devices. However work on the optimisation of ohmic contacts for ultra-low resistance has indicated that Ni plays a more complex role. We have investigated a series of Ni-Au-Ge alloys with varying Ni content using cubic central composite experiments and electron microbeam techniques which have allowed us to characterise the alloy microstructure, dopant distribution and contact resistance as a function of Ni content. We conclude that the amount of Ni must be closely matched to the amount of Ge and Au for the formation of ultra-low resistance contacts.

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1996 Conference on Optoelectronic and Microelectronic Materials and Devices. Proceedings

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