Development of in-situ Sb-Doped Ge1?xSnx Epitaxial Layers for Source/Drain Stressor of Strained Ge Transistors

机译：应变GE晶体管的原位SB掺杂GE1 XSNX外延层的开发

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We have investigated the crystalline and electrical characteristics of heavily doped n-type GeSn epitaxial layers with various Sb concentrations up to 10 cm. In this study, we focus the thermal stability of Sb doped GeSn and Ge epitaxial layers and clarify the relationship between the crystalline and electrical characteristics. At the as-grown condition, the substitutional Sb concentration was achieved at higher than 2.6×10 cm. After the post-deposition annealing, Sb-doped GeSn maintained their superior crystallinity up to 400 °C, while the sheet resistance increases with Sb segregation. We also found that Sb atoms doped in the GeSn layer show a higher thermal robustness at 300 °C than those in the Ge layer.

机译：我们研究了重掺杂的N型GESN外延层的结晶和电特性，其各种Sb浓度高达10cm。在这项研究中，我们将Sb掺杂Gesn和Ge外延层的热稳定性集中在一起，并阐明了结晶和电特性之间的关系。在以生长条件下，以高于2.6×10cm达到取代的Sb浓度。在沉积后退火后，SB掺杂的GESN保持优异的结晶度，可达400℃，而薄层电阻随SB偏析而增加。我们还发现，在GESN层中掺杂的SB原子显示在300℃的较高的热稳健性，而不是GE层中的热稳健性。

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《IEEE Electron Devices Technology and Manufacturing Conference》|2017年|1 v.|共3页
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Jihee Jeon; Akihiro Suzuki; Kouta Takahashi; Osamu Nakatsuka; Shigeaki Zaima;
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中图分类一般性问题;
关键词
Annealing; Thermal stability; Resistance; Epitaxial layers; Chemicals; Doping; Temperature measurement;

机译：退火;热稳定性;电阻;外延层;化学物质;掺杂;温度测量;

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1. Growth and electrical properties of in situ Sb-doped Ge_(1-x)Sn_x epitaxial layers for source/drain stressor of strained-Ge transistors [J] . Jeon Jihee, Suzuki Akihiro, Takahashi Kouta, Japanese journal of applied physics . 2018,第12期

机译：应变Ge晶体管的源/漏应力源Sb掺杂Ge_（1-x）Sn_x外延层的生长和电性能
2. The addition of strain in uniaxially strained transistors by both SiN contact etch stop layers and recessed SiGe sources and drains [J] . Thibaud Denneulin, David Cooper, Jean-Michel Hartmann, Journal of Applied Physics . 2012,第9期

机译：SiN接触蚀刻停止层和凹陷的SiGe源极和漏极在单轴应变晶体管中增加了应变
3. Si_(1-y)Ge_y or Ge_(1-z)Sn_z Source/Drain Stressors on Strained Si_(1-x)Ge_x-Channel P-Type Field-Effect Transistors: A Technology Computer-Aided Design Study [J] . Geert Eneman, An De Keersgieter, Liesbeth Witters, Japanese journal of applied physics . 2013,第4Issue2期

机译：Si_（1-x）Ge_x沟道P型场效应晶体管上的Si_（1-y）Ge_y或Ge_（1-z）Sn_z源极/漏极应力源：一项技术计算机辅助设计研究
4. Development of in-situ Sb-Doped Ge1−xSnx Epitaxial Layers for Source/Drain Stressor of Strained Ge Transistors [C] . Jihee Jeon, Akihiro Suzuki, Kouta Takahashi, IEEE Electron Devices Technology and Manufacturing Conference . 2017

机译：应变Ge晶体管源/漏应力源Sb掺杂Ge1-xSnx外延层的研制
5. Investigation of carbon profiles for enhanced boron confinement and improved carrier transport in strained silicon germanium nanolayers for heterojunction bipolar transistors. [D] . Enicks, Darwin Gene. 2007

机译：在异质结双极晶体管的应变硅锗纳米层中研究碳分布，以增强硼的含量并改善载流子的传输。
6. Synthesis of Ge1−xSnx Alloy Thin Films by Rapid Thermal Annealing of Sputtered Ge/Sn/Ge Layers on Si Substrates [O] . Hadi Mahmodi, Md Roslan Hashim, Tetsuo Soga, 2018

机译：通过硅衬底上溅射的Ge / Sn / Ge层的快速热退火合成Ge1-xSnx合金薄膜
7. The addition of strain in uniaxially strained transistors by both SiN contact etch stop layers and recessed SiGe sources and drains [O] . Thibaud Denneulin, David Cooper, Jean-Michel Hartmann, 2012

机译：通过SIN接触蚀刻静止层和凹陷的SiGE源和排水管在单轴紧张的晶体管中添加应变

Development of in-situ Sb-Doped Ge1?xSnx Epitaxial Layers for Source/Drain Stressor of Strained Ge Transistors

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