用于制造低热预算自对准LTPS tft的闪光灯退火

2019 26th International Workshop on Active-Matrix Flatpanel Displays and Devices (AM-FPD) Pub Date : 2019-07-01 DOI:10.23919/AM-FPD.2019.8830629

Glenn Packard, R. Manley, K. Hirschman

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引用次数: 1

摘要

探讨了用闪光灯退火替代非晶硅的结晶和离子注入后引入的硼的活化。研究了单阶段结晶活化和两阶段结晶+活化闪光灯退火工艺对硼活化的影响。该工艺分为两阶段，首先进行高强度的植入前结晶处理，然后进行低强度的植入后活化处理，以避免熔融阶段。单阶段工艺仅包括种植后的后一阶段处理，用于同时使非晶硅固相结晶和激活硼。研究发现，两阶段工艺在支持高导电性源/漏区方面具有优势，通过硅台面预图案化进一步增强硼活化，可靠地获得小于1 kΩ/□的片电阻。该工艺被用于在玻璃上生产自对准PMOS tft，减少了热预算，增强了闪光灯退火在显示器制造中的可行性。

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Flash-Lamp Annealing for Manufacturing of Reduced Thermal Budget Self-Aligned LTPS TFTs

Flash lamp annealing is explored as a replacement process for crystallization of amorphous silicon and activation of boron introduced subsequently by ion implantation. Single-stage crystallization/activation and two-stage crystallization + activation flash-lamp anneal processes were investigated for evaluation of boron activation. The two-stage process had an initial high intensity pre-implant crystallization treatment, followed by a lower intensity post-implant activation treatment which avoided a melt phase. The single-stage process included only the latter post-implant treatment which served to solid-phase crystallize amorphous silicon and activate boron simultaneously. The two-stage process was found to be superior in supporting highly conductive source/drain regions, with further enhancement in boron activation achieved via silicon mesa pre-patterning, reliably attaining sheet resistances less than 1 kΩ/□. This process was used to produce self-aligned PMOS TFTs on glass with reduced thermal budget, reinforcing the feasibility of flash lamp annealing in display manufacturing.

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来源期刊

2019 26th International Workshop on Active-Matrix Flatpanel Displays and Devices (AM-FPD)

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