GaAs-AlGaAs Epitaxial Growth for Microwave Applications

1983 13th European Microwave Conference Pub Date : 1983-09-01 DOI:10.1109/EUMA.1983.333208

N. Linh

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Abstract

Heterojunctions which have been used for years in optoelectronic devices, are now entering in microwave applications. The heterojunction bipolar transistor, proposed since 1957 in not matured in its technology. The new born selectively-doped heterojunction (1978) is gaining in interest in both aspects, physics of the two-dimensional electron-gas (2DEG) and electronic applications. This paper will first recall the transport properties of the 2DEG accumulated at the interface of undoped GaAs-n doped A1GaAs heterunctions. In particular, extremely high mobility and high electron velocity were observed. Growth of these selectively doped heterojunctions by MBE and MOCVD is then described. The best results were obtained by the former technique. Low-noise two-dimensional electron gas FETs (TEGFETs) are presented. With gate length of ~ 0.5¿m noise figure as low as 1.26, 1.4 and 2.3 dB were measured at 10, 12 and 17.5 GHz respectively, with associated gain of 12, 11 and 7.1 dB. The TEGFET have been shown to be the fastest semiconductor device at 300 K with 12.2ps (gate length ~1¿m). They also present low power dissipation (5 times less than conventional GaAs FETs). TEGFET frequency dividers operate up to 5.5 GHz (gate length ~l¿m).

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微波应用的GaAs-AlGaAs外延生长

异质结已在光电器件中应用多年，现在正进入微波应用领域。异质结双极晶体管自1957年提出以来，其技术尚未成熟。新诞生的选择性掺杂异质结(1978)在两个方面都引起了人们的兴趣，二维电子-气体(2DEG)的物理学和电子应用。本文将首先回顾未掺杂GaAs-n掺杂A1GaAs异质函数界面上积累的2DEG的输运性质。特别地，观察到极高的迁移率和高电子速度。然后描述了MBE和MOCVD对这些选择性掺杂异质结的生长。用前一种方法得到了最好的结果。介绍了低噪声二维电子气体场效应管(tegfet)。当栅极长度为~ 0.5¿m时，在10、12和17.5 GHz频段测得噪声系数分别为1.26、1.4和2.3 dB，相关增益为12、11和7.1 dB。TEGFET已被证明是300 K时最快的半导体器件，速度为12.2ps(栅极长度~1¿m)。它们还具有低功耗(比传统的GaAs fet低5倍)。TEGFET分频器工作频率高达5.5 GHz(栅极长度~ 1¿m)。

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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1983 13th European Microwave Conference

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