在线后端注入氘以提高纳米级mosfet栅氧化可靠性

Jae-Sung Lee, S. Do, Yong-Hyun Lee
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引用次数: 1

摘要

本文主要研究栅极氧化物中氘掺入对MOS器件可靠性的影响。通过在线后端(BEOL)低能注入,将D+离子注入栅极氧化膜中,使SiO2/Si界面悬垂键钝化,并在SiO2体中生成氘键。器件参数的变化以及栅极泄漏电流取决于栅极氧化物的降解,与相应的氢掺入相比,氘掺入改善了栅极泄漏电流。然而,当栅极氧化物中的氘浓度过高时,会产生过多的陷阱并降低性能。我们的研究结果提出了在MOS结构中加入氘的新方法。
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Deuterium implantation at the back-end of line for the improvement of gate oxide reliability in nano-scale MOSFETs
This paper is focused on the improvement of MOS device reliability related to deuterium incorporation in gate oxide. The injection of D+ ions into the gate oxide film was achieved through low-energy implantation at the back-end of line (BEOL) for the purpose of the passivation of dangling bonds at SiO2/Si interface and the generation of deuterium bonds in SiO2 bulk. Device parameter variations, as well as the gate leakage current, depend on the degradation of gate oxide and, compared to corresponding hydrogen incorporation, are improved by deuterium incorporation. However, when the concentration of deuterium is redundant in gate oxide, excess traps are generated and degrade the performance. Our result suggests the novel method to incorporate deuterium in the MOS structure for the reliability.
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