An effective electrical isolation scheme by iron implantation at different substrate temperatures

Ion Implantation Technology. 2002. Proceedings of the 14th International Conference on Pub Date : 1900-01-01 DOI:10.1109/IIT.2002.1258079

P. Too, S. Ahmed, B. Sealy, R. Gwilliam

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引用次数: 1

Abstract

High-energy implantation of iron in n-type doped InP epilayers at different substrate temperatures: 77K, room temperature (RT), 100/spl deg/C and 200/spl deg/C was investigated to study the electrical isolation of n-type InP. Iron isolation implants were performed at 1MeV with a fluence of 5 /spl times/ 10/sup 14/ /cm/sup 2/. This isolation scheme was chosen to place most of the iron atoms well inside the n-type doped layer. The sheet resistivity (R/sub s/), sheet carrier concentration (n/sub s/) and sheet mobility (/spl mu/) were measured as a function of substrate temperature and post-implantation annealing temperature (100 - 800/spl deg/C). Samples implanted at 77K, RT and 100/spl deg/C show more or less the same trend of post-implant annealing characteristics. A maximum sheet resistivity of /spl sim/1/spl times/10/sup 7/ /spl Omega///spl square/ was achieved for samples implanted at 77K, RT and 100/spl deg/C after annealing at 400/spl deg/C. A lower resistivity of /spl sim/1/spl times/10/sup 6/ /spl Omega///spl square/ was obtained for a 200/spl deg/C implant after annealing at 400/spl deg/C. Lower damage accumulation due to enhanced dynamic annealing is observed for the highest implantation temperature. For 200/spl deg/C substrate temperature, annealing above 400/spl deg/C resulted in a gradual decrease in sheet resistivity to a value close to that of the starting material. But this is not the case for the lower substrate temperatures. The sheet resistivity was increased again for 77K, RT and 100/spl deg/C implant after annealing at 600/spl deg/C. We infer that for 77K, RT and 100/spl deg/C implantation temperatures, the electrical isolation is due to a product of both damage related centers and defects related to the presence of Fe whereas for 200/spl deg/C substrate temperature, we infer that only damage induced compensation removes the carriers. These results show the importance of iron implants as a device isolation scheme.

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在不同的衬底温度下，铁注入是一种有效的电隔离方案

研究了不同衬底温度(77K、室温、100/spl℃和200/spl℃)下，铁在n型掺杂InP薄膜中的高能注入，研究了n型InP的电隔离。在1MeV下进行铁隔离植入，影响为5 /spl次/ 10/sup 14/ /cm/sup 2/。选择这种隔离方案是为了将大多数铁原子很好地放置在n型掺杂层内。测量了薄膜电阻率(R/sub s/)、载流子浓度(n/sub s/)和迁移率(/spl mu/)随衬底温度和植入后退火温度(100 ~ 800/spl℃)的变化规律。在77K、RT和100/spl℃下注入的样品表现出或多或少相同的注入后退火特征趋势。在400/spl℃退火后，在77K、RT和100/spl℃下注入样品的最大薄片电阻率为/spl sim/1/spl times/10/sup 7/ /spl Omega///spl square/。对200/spl℃的植入物在400/spl℃退火后，获得了较低的电阻率为/spl sim/1/spl times/10/sup / 6/ /spl Omega///spl square/。在最高的注入温度下，由于强化的动态退火，观察到较低的损伤积累。当衬底温度为200/spl℃时，在400/spl℃以上退火后，薄片电阻率逐渐降低，接近起始材料的电阻率。但是对于基底温度较低的情况就不是这样了。在600/spl℃退火后，在77K、RT和100/spl℃注入下，板材的电阻率再次提高。我们推断，对于77K, RT和100/spl℃的注入温度，电隔离是由于与铁存在相关的损伤中心和缺陷的产物，而对于200/spl℃的衬底温度，我们推断只有损伤引起的补偿才能去除载流子。这些结果表明了铁植入体作为器件隔离方案的重要性。

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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Ion Implantation Technology. 2002. Proceedings of the 14th International Conference on

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