具有ir基栅金属化的增强型InAlAs/InGaAs/InP hemt

S. Kim, I. Adesida
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引用次数: 0

摘要

高电子迁移率晶体管(hemt)的可靠性在很大程度上取决于栅极肖特基接触半导体的稳定性。在制造和器件工作过程中,栅极下沉会改变跨导、栅极电容和阈值电压,这是HEMT器件建模和电路设计的关键器件参数。特别是对于使用热处理Pt作为栅极金属化的增强模式InAlAs/InGaAs/InP HEMTs (eHEMTs),由于Pt的扩散,热稳定性一直构成一个问题。尽管利用这种扩散的各个方面来增强e模式行为,但没有进行定量测量来估计Pt在InAlAs中的扩散深度。此外,最好开发一种肖特基接触势垒高度与Pt相似但扩散率低得多的金属化方案。为此,我们开发了一种基于Ir的InAlAs/InGaAs/InP hemt栅极金属结构,并研究了其与传统pt基触点的热稳定性。利用Ir/Ti/Pt/Au栅极制作了一个0.15 um栅极长度的eHEMT,以展示Ir基栅极技术的潜力
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Enhancement-mode InAlAs/InGaAs/InP HEMTs with Ir-based gate metallization
The reliability of high electron mobility transistors (HEMTs) significantly depends on the stability of the gate Schottky contact to the semiconductor. Gate sinking during the fabrication and device operation alters transconductance, gate capacitance, and threshold voltage, which are crucial device parameters for modeling HEMT devices and designing circuits. In particular for enhancement-mode InAlAs/InGaAs/InP HEMTs (eHEMTs) where thermally-treated Pt is utilized as the gate metallization, thermal stability has always constituted a problem due to the diffusion of Pt. Although aspects of this diffusion are utilized to enhance e-mode behavior, no quantitative measurements have been conducted to estimate the diffusion depth of Pt in InAlAs. Further, it would be preferable to develop a metallization scheme where the Schottky contact barrier height is similar to that of Pt but with a much lower diffusivity. To this end, we have developed a gate metal structure based on Ir for InAlAs/InGaAs/InP HEMTs and investigated its thermal stability in comparison to the conventional Pt-based contact. A 0.15 um-gatelength eHEMT utilizing Ir/Ti/Pt/Au gate was fabricated to demonstrate the potential of Ir-based gate technology
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