Low defect, high quality SIMOX material for bipolar device applications

Proceedings. SOS/SOI Technology Workshop Pub Date : 1988-10-03 DOI:10.1109/SOI.1988.95395

F. Namavar, E. Cortesi, P. Sioshansi

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引用次数: 4

Abstract

The threading dislocation densities of 10/sup 8//cm/sup 2/ to 10/sup 10//cm/sup 2/ that are typical of SIMOX material are detrimental for bipolar structures and orders-of-magnitude reduction of defect density is still required to permit SIMOX (separation by implanted oxygen) material to be acceptable for high-performance bipolar and analog devices. Two methods have been developed to produce low-defect SIMOX wafers. In the first method, threading dislocation defects are reduced by low-dose Ge implantation and subsequent solid-phase epitaxial (SPE) regrowth. Ge implantation produces a strained and amorphized layer that during the subsequent SPE acts as an artificial interface and deflects or stops the propagation of threading dislocations. In the second method, threading dislocations are prevented by a multiple low-dose implantation and high-temperature annealing process. No defects were observed for implantation with doses up to 8*10/sup 17/ O/sup +//cm/sup 2/, and threading dislocation density has been reduced by three to four orders of magnitude. Continuous and uniform buried layers are formed with about 65% of the dose required by the standard SIMOX process. Preliminary results have shown that by use of these methods low defect, superior quality, SIMOX wafers for submicron CMOS and bipolar device applications can be produced.<>

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用于双极器件的低缺陷、高质量SIMOX材料

SIMOX材料典型的螺纹位错密度为10/sup 8//cm/sup 2/至10/sup 10//cm/sup 2/，这对双极结构是有害的，为了使SIMOX(通过植入氧气分离)材料能够用于高性能双极和模拟器件，仍然需要将缺陷密度降低数量级。开发了两种生产低缺陷SIMOX晶圆的方法。在第一种方法中，通过低剂量的锗注入和随后的固相外延(SPE)再生来减少螺纹位错缺陷。锗注入产生一种应变和非晶层，在随后的固相放电过程中充当人工界面，偏转或阻止螺纹位错的传播。在第二种方法中，通过多次低剂量注入和高温退火工艺来防止螺纹位错。当剂量达到8*10/sup 17/ O/sup +//cm/sup 2/时，未观察到缺损，螺纹错位密度降低了3 ~ 4个数量级。用标准SIMOX工艺所需剂量的65%左右形成连续均匀的埋层。初步结果表明，通过使用这些方法，可以生产出低缺陷，高质量的用于亚微米CMOS和双极器件应用的SIMOX晶圆。

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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Proceedings. SOS/SOI Technology Workshop

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