Self-aligned 0.12 /spl mu/m T-gate In/sub .53/Ga/sub .47/As/In/sub .52/Al/sub .48/As HEMT technology utilising a non-annealed ohmic contact strategy

ESSDERC '03. 33rd Conference on European Solid-State Device Research, 2003. Pub Date : 2003-09-16 DOI:10.1109/ESSDERC.2003.1256877

D. Moran, K. Kalna, E. Boyd, F. Mcewan, H. McLelland, L. Zhuang, C. Stanley, A. Asenov, I. Thayne

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引用次数: 8

Abstract

An InGaAs/InAlAs based HEMT structure, lattice matched to an InP substrate, is presented in which drive current and transconductance has been optimized through a double-delta doping strategy. Together with an increase in channel carrier density, this allows the use of a non-annealed ohmic contact process. HEMT devices with 120 nm standard and self-aligned T-gates were fabricated using the non-annealed ohmic process. At DC, self-aligned and standard devices exhibited transconductances of up to 1480 and 1100 mS/mm respectively, while both demonstrated current densities in the range 800 mA/mm. At RF, a cutoff frequency f/sub T/ of 190 GHz was extracted for the self-aligned device. The DC characteristics of the standard devices were then calibrated and modelled using a compound semiconductor Monte Carlo device simulator. MC simulations provide insight into transport within the channel and illustrate benefits over a single delta doped structure.

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采用非退火欧姆接触策略的自校准0.12 /spl mu/m t栅In/sub .53/Ga/sub .47/As/In/sub .52/Al/sub .48/As HEMT技术

提出了一种基于InGaAs/InAlAs的HEMT结构，其晶格与InP衬底匹配，通过双δ掺杂策略优化了驱动电流和跨导性。加上通道载流子密度的增加，这允许使用非退火欧姆接触工艺。采用非退火欧姆工艺制备了具有120 nm标准和自对准t栅的HEMT器件。在直流电流下，自对齐器件和标准器件的跨导率分别高达1480和1100 mS/mm，而电流密度均在800 mA/mm范围内。在射频处，提取自对准器件的截止频率f/sub / 190 GHz。然后使用复合半导体蒙特卡罗器件模拟器对标准器件的直流特性进行校准和建模。MC模拟提供了对通道内输运的深入了解，并说明了优于单一δ掺杂结构的好处。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ESSDERC '03. 33rd Conference on European Solid-State Device Research, 2003.

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