GaAs/AlGaas异质结双极晶体管降解机理的表征

52nd Annual Device Research Conference Pub Date : 1994-06-20 DOI:10.1109/DRC.1994.1009429

M. Frei, C. Abernathy, T. Chiu, T.R. Fullowan, J. Lothian, R. Montgomery, S. Pearton, F. Ren, P.R. Smith, C. W. Snyder, B. Tseng, J. Weiner, P. Wisk

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引用次数: 2

摘要

这些器件是用MOMBE生长的类似结构制造的，并以Sn和C作为掺杂剂。该生长序列包括一个62 nm的GaAs基底(p = 7 ~ 10′~ cm ~)、一个7 nm的GaAs未掺杂间隔层和一个80 nm的alo25 ga75 As发射极(n= 6 × lo′* cm)。主要的制造技术使用基于干蚀刻与AuGe金属化和离子植入隔离的自对准工艺，该工艺，我们称之为“植入工艺”，类似于参考文献2中描述的，但具有三层基金属化和更高植入剂量的起飞阶段。该植入物的总剂量为1。8 ~ 1016 cmH+和1014cm-2 F+，然后在53OOC退火。第二种工艺(“W工艺”)用WSi取代了AuGe金属化，并用台面隔离和半平面几何结构取代了离子注入。

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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Characterization of degradation mechanisins in GaAs/AlGaas heterojunction bipolar transistors

The devices are fabricated using similar structures grown by MOMBE', with Sn and C as dopants. The growth sequence includes a 62 nm GaAs base ( p = 7 ~ 1 0 ' ~ c m ~ ) , a 7 nm GaAs undoped spacer, and a 80 nm Alo.25 Gao.75 As emitter (n= 6x lo'* cm). The main fabrication technology uses a self-aligned process based on dry etching with AuGe metallization and ion-implant isolation, This process, which we refer to as the "implant process", is similar to that described in ref. 2, but with a tri-layer lift-off ste for the base metallization and higher implant doses. The implant includes total doses of 1 . 8 ~ 1OI6 cmH+ and 1014cm-2 F+ and is followed by annealing at 53OOC. A second process (the "W process") replaces the AuGe metallization with WSi, and the ion-implantation with mesa isolation and a semiplanarized geometry.

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52nd Annual Device Research Conference

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