超浅植入层的RTA和FLA

2008 16th IEEE International Conference on Advanced Thermal Processing of Semiconductors Pub Date : 2008-12-02 DOI:10.1109/RTP.2008.4690562

C. Wundisch, M. Posselt, W. Anwand, B. Schmidt, A. Mucklich, W. Skorupa, T. Clarysse, E. Simoen

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引用次数: 2

摘要

研究了P或As注入形成超浅n+层以及随后的快速热退火(RTA)或闪光灯退火(FLA)。重点是掺杂剂的扩散和活化。RTA通过浓度依赖的扩散导致浅层注入剖面显着拓宽。相比之下，FLA不会引起任何扩散，因此是一种很有前途的方法，可以在Ge中产生超浅n+p结。在目前的退火条件下，RTA对P和As的最大活化水平分别为1.1E19和6.5E18 cm−3。FLA对P和As的最大活化分别为4.0E19和2.1E19 cm−3。讨论了掺杂剂扩散和失活的可能机制。

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RTA and FLA of ultra-shallow implanted layers in Ge

The formation of ultra-shallow n+ layers by P or As implantation and subsequent rapid thermal annealing (RTA) or flash-lamp annealing (FLA) is investigated. The focus is on diffusion and activation of dopants. RTA leads to considerable broadening of the shallow as-implanted profiles by concentration-dependent diffusion. In contrast, FLA does not cause any diffusion and is therefore a promising method for producing ultra-shallow n+p junctions in Ge. Under present annealing conditions RTA yields maximum activation levels of about 1.1E19 and 6.5E18 cm−3 for P and As, respectively. The maximum activation achieved by FLA is about 4.0E19 and 2.1E19 cm−3 for P and As, respectively. Possible mechanisms for diffusion and deactivation of dopants are discussed.

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2008 16th IEEE International Conference on Advanced Thermal Processing of Semiconductors

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