Optimized Laser Thermal Annealing on Germanium for High Dopant Activation and Low Leakage Current

Shayesteh M.; Connell D.O.; Gity F.; Murphy-Armando P.; Yu R.; Huet K.; Toque-Tresonne I.; Cristiano F.; Boninelli S.; Henrichsen H.H.; Nielsen P.F.; Petersen D.H.; Duffy R.

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Optimized Laser Thermal Annealing on Germanium for High Dopant Activation and Low Leakage Current

机译：优化的锗激光热退火技术，可实现高掺杂激活和低漏电流

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摘要

In this paper, state-of-the-art laser thermal annealing is used to fabricate Ge diodes. We compared the effect of laser thermal annealing (LTA) and rapid thermal annealing (RTA) on dopant activation and electrical properties of phosphorus and Arsenic-doped n+/p junctions. Using LTA, high carrier concentration above was achieved in n-type doped regions, which enables low access resistance in Ge devices. Furthermore, the LTA process was optimized to achieve a diode ratio and ideality factor , as it allows excellent junction depth control when combined with optimized implant conditions. On the other hand, RTA revealed very high ratio and n , at the cost of high dopant diffusion and lower carrier concentrations which would degrade scalability and access resistance.

机译：在本文中，采用最先进的激光热退火技术制造Ge二极管。我们比较了激光热退火（LTA）和快速热退火（RTA）对磷和砷掺杂的n + / p结的掺杂物活化和电性能的影响。使用LTA，可在n型掺杂区域中获得高于上述浓度的高载流子浓度，从而实现Ge器件的低访问电阻。此外，对LTA工艺进行了优化，以实现二极管比率和理想因子，因为当与优化的注入条件结合使用时，它可以实现出色的结深度控制。另一方面，RTA显示出很高的比率和n，代价是掺杂剂扩散高，载流子浓度低，这会降低可扩展性和访问电阻。

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来源
《Electron Devices, IEEE Transactions on》 |2014年第12期|4047-4055|共9页
作者
Shayesteh M.; Connell D.O.; Gity F.; Murphy-Armando P.; Yu R.; Huet K.; Toque-Tresonne I.; Cristiano F.; Boninelli S.; Henrichsen H.H.; Nielsen P.F.; Petersen D.H.; Duffy R.;
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作者单位

Tyndall National Institute, University College Cork, Cork, Ireland;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Annealing; Leakage currents; Rough surfaces; Surface morphology; Surface roughness; Surface treatment; Thermal analysis; Ge; laser thermal annealing (LTA); leakage current; n+/p junction.; n+/p junction;

机译：退火;漏电流;粗糙表面;表面形态;表面粗糙度;表面处理;热分析;Ge;激光热退火（LTA）;漏电流;n + / p结;n + / p结;

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专利

1. High-performance n-channel polycrystalline germanium thin-film transistors via continuous-wave laser crystallization and green nanosecond laser annealing for source and drain dopant activation [J] . Li Yi-Shao, Liang Hao-Hsiang, Wu Chun-Yi, Japanese journal of applied physics . 2019,第SD期

机译：高性能n沟道多晶锗薄膜晶体管，通过连续波激光结晶和绿色纳秒激光退火来激活源极和漏极掺杂剂
2. High-performance n-channel polycrystalline germanium thin-film transistors via continuous-wave laser crystallization and green nanosecond laser annealing for source and drain dopant activation [J] . Li Yi-Shao, Liang Hao-Hsiang, Wu Chun-Yi, Japanese journal of applied physics . 2019,第SD期

机译：高性能N沟道多晶锗薄膜晶体管通过连续波激光结晶和绿色纳秒激光退火源和排水掺杂剂活化
3. High Phosphorus Dopant Activation in Germanium Using Laser Spike Annealing [J] . William Hsu, Xiaoru Wang, Feng Wen, IEEE Electron Device Letters . 2016,第9期

机译：激光尖峰退火法活化锗中的高磷掺杂剂
4. Laser thermal annealing of Ge, optimized for highly activated dopants and diode ION/IOFF ratios [C] . Shayesteh M., OConnell D., Gity F., International Conference on Ion Implantation Technology . 2014

机译：Ge的激光热退火，针对高度活化的掺杂剂和二极管I ON / I OFF 比率进行了优化
5. Laser Annealing and Dopant Activation in III-V Materials [D] . Sorg, Victoria Carrie. 2017

机译：III-V材料中的激光退火和掺杂剂活化
6. Improved ground-state modulation characteristics in 1.3 μm InAs/GaAs quantum dot lasers by rapid thermal annealing [O] . Hanxue Zhao, Soon Fatt Yoon, Chun Yong Ngo, 2011

机译：通过快速热退火改善1.3μmInAs / GaAs量子点激光器中的基态调制特性
7. High-performance n-channel polycrystalline germanium thin-film transistors via continuous-wave laser crystallization and green nanosecond laser annealing for source and drain dopant activation [O] . Yi-Shao Li, Hao-Hsiang Liang, Chun-Yi Wu, 2019

机译：高性能N沟道多晶锗薄膜晶体管通过连续波激光结晶和绿色纳秒激光退火源和排水掺杂剂活化
8. Elevated temperature annealing of the neutron induced leakage current and corresponding defect levels in low and high resistivity silicon detectors [R] . Eremin, V., Ivanov, A., Verbitskaya, E., 1994

机译：中子引起的漏电流的高温退火和低电阻率和高电阻率硅探测器中的相应缺陷水平

Optimized Laser Thermal Annealing on Germanium for High Dopant Activation and Low Leakage Current

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