Carbon implantation performance improvement by using carbon monoxide (CO) gas on applied materials VIISta HCS implanter

2014 20th International Conference on Ion Implantation Technology (IIT) Pub Date : 2014-10-30 DOI:10.1109/IIT.2014.6939986

Ying Tang, Jim Dunn, S. Bishop, Danny Elzer, J. Sweeney, T. Morel, S. Courault, G. Horellou, Marc Biossat

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引用次数: 2

Abstract

Carbon implant has become one of the major co-implant steps in the fabrication of advanced semiconductor devices due to its proven effectiveness in controlling and reducing Transient Enhanced Diffusion (TED) in ultra-shallow junction formation. Carbon dioxide (CO₂) is still widely used as the feed gas for carbon implantation. However, it is well known that the high concentration of oxygen from CO₂ causes many problems, including oxidation of the implant arc chamber components, which leads to rapid performance degradation of the source. Phosphine (PH₃) is often used as a dilution gas to minimize the oxidation effect from CO₂. However, its use usually results in a reduction of the C⁺ beam current, thereby negatively impacting the tool's productivity. In this paper, carbon monoxide (CO) is presented as an alternative carbon doping gas replacing CO₂ or CO₂ with PH₃ dilution (referred to as CO₂/PH₃ throughout this paper). CO is shown to exhibit distinct performance improvements compared to CO₂/PH₃ on the Applied Materials VIISta HCS high current implanter. Significant improvement in C⁺ beam current and source life with CO gas is noted.

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利用一氧化碳(CO)气体对应用材料进行碳植入性能的改善

由于碳植入在控制和减少超浅结形成中的瞬态增强扩散(TED)方面的有效性，已经成为先进半导体器件制造中主要的共植入步骤之一。二氧化碳(CO2)仍被广泛用作碳注入的原料气。然而，众所周知，二氧化碳产生的高浓度氧气会导致许多问题，包括植入电弧室组件的氧化，从而导致源的性能迅速下降。磷化氢(PH3)通常用作稀释气体，以尽量减少二氧化碳的氧化作用。然而，它的使用通常会导致C+光束电流的减少，从而对工具的生产率产生负面影响。在本文中，一氧化碳(CO)作为替代二氧化碳或稀释了PH3的二氧化碳的碳掺杂气体(在本文中称为CO2/PH3)。与应用材料公司VIISta HCS高电流植入器上的CO2/PH3相比，CO表现出明显的性能改善。注意到CO气体显著改善了C+束电流和源寿命。

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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2014 20th International Conference on Ion Implantation Technology (IIT)

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