用热探针系统测量等离子体掺杂结深度

Ion Implantation Technology. 2002. Proceedings of the 14th International Conference on Pub Date : 1900-01-01 DOI:10.1109/IIT.2002.1257980

Bon-Woong Koo Bon-Woong Koo, Ziwei Fang Ziwei Fang, M. Bakshi, L. Nicolaides, S. Cherekdjian

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引用次数: 0

摘要

随着半导体器件尺寸的缩小，对超浅结(USJ)形成的需求也在增加。脉冲等离子体掺杂(P2LAD)是一种在半导体晶圆中形成usj的方法。在本研究中，利用-200 V和-2.0 kV的晶圆偏置和BF3源气体将硼植入到直径为200 mm的硅片中。硼的剂量约为1015 B/cm2，晶圆片使用快速热退火器(RTA)在1000°C下退火。在这项工作中，使用非破坏性在线测量工具(thermal - probe™)来表征退火后等离子体掺杂样品的结深度。热探针采用泵浦探针技术，利用探针束的反射信号来跟踪结深度。测量的热探针信号与基于sim的结深度值相关。

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Plasma doping junction depth measurement using Therma-Probe system

As semiconductor devices shrink in size, demands for the formation of ultra-shallow-junctions (USJ) are increasing. Pulsed plasma doping (P2LAD) is a method for forming USJs in semiconductor wafers. In this study, wafer biases between -200 V and -2.0 kV with BF3 source gas were used to implant boron into 200-mm diameter silicon wafers. The boron dose was approximately 1015 B/cm2, and wafers were annealed at 1,000°C using a rapid thermal annealer (RTA). In this work, a non-destructive in-line metrology tool (Therma-Probe™) was used for characterizing the junction depth of the plasma-doped samples after annealing. The Therma-Probe utilizes a pump-probe technique where the reflected signal of the probe beam is used to track the junction depth. The measured Therma-Probe signals were correlated with SIMS-based junction depth values.

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

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