Cointegration of  In Situ Doped Silicon;Carbon Source and Silicon;Carbon I-Region in P-Channel Silicon Nanowire Impact-Ionization Transistor

Eng-Huat Toh; Wang G.H.; Lap Chan; Weeks D.; Bauer M.; Spear J.; Thomas S.G.; Samudra G.; Yee-Chia Yeo

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Cointegration of In Situ Doped Silicon;Carbon Source and Silicon;Carbon I-Region in P-Channel Silicon Nanowire Impact-Ionization Transistor

机译：P沟道硅纳米线冲击电离晶体管中原位掺杂硅；碳源和硅；碳I区的共集成

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The p-channel impact-ionization nanowire multiple- gate field-effect transistors (I-MuGFETs or I-FinFETs), which have a multiple-gateanowire-channel architecture, were demonstrated. The superior gate-to-channel coupling reduces the breakdown voltage VBD for enhanced device performance. For the first time, an in situ doped source was incorporated with the impact-ionization MOS transistor. The in situ phosphorus-doped Si source with improved dopant activation and very abrupt junction profile reduces VBD and enhances the on-state current Ion. An additional improvement was also achieved by incorporating a strained Si1-yCy impact-ionization region (I-region) and an in situ doped Si1-yCy source, leading to reduction in Vbd and enhancement in Ion. This is due to strain-induced reduction of the impact-ionization threshold energy Eth. Furthermore, an excellent subthreshold swing of below 3 mV/decade at room temperature was achieved for all devices.

机译：演示了具有多栅极/纳米线通道架构的p沟道碰撞电离纳米线多栅极场效应晶体管（I-MuGFET或I-FinFET）。出色的栅极至通道耦合降低了击穿电压VBD，从而增强了器件性能。首次将原位掺杂源与碰撞电离MOS晶体管结合在一起。具有改善的掺杂剂活化和非常陡峭的结轮廓的原位磷掺杂的硅源降低了VBD并增强了导通电流Ion。通过并入应变的Si1-yCy碰撞电离区域（I区域）和原位掺杂的Si1-yCy源，还实现了另一项改进，从而降低了Vbd，增强了离子。这是由于应变引起的碰撞电离阈值能量Eth的降低。此外，所有器件在室温下都具有低于3 mV /十倍频的出色亚阈值摆幅。

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来源
《IEEE Electron Device Letters》 |2008年第7期|p.731-733|共3页
作者
Eng-Huat Toh; Wang G.H.; Lap Chan; Weeks D.; Bauer M.; Spear J.; Thomas S.G.; Samudra G.; Yee-Chia Yeo;
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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
中图分类一般性问题;
关键词
MOSFET; impact ionisation; nanoelectronics; nanowires; I-FinFET; I-MuGFET; Si; breakdown voltage; gate-to-channel coupling; impact-ionization MOS transistor; impact-ionization threshold energy; p-channel impact-ionization nanowire multiple-gate field-effect transis;

机译：MOSFET;冲击电离;纳米电子;纳米线;I-FinFET;I-MuGFET;Si;击穿电压;门-沟道耦合;冲击电离MOS晶体管;冲击电离阈值能量;p沟道冲击电离纳米线多-门场效应转换;

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专利

1. Cointegration of In Situ Doped Silicon–Carbon Source and Silicon–Carbon I-Region in P-Channel Silicon Nanowire Impact-Ionization Transistor [J] . Toh E.-H., Wang G. H., Chan L., IEEE Electron Device Letters . 2008,第7期

机译：P沟道硅纳米线冲击电离晶体管中原位掺杂的硅碳源和硅碳I区的共集成
2. Silicon–Carbon Stressors With High Substitutional Carbon Concentration and In Situ Doping Formed in Source/Drain Extensions of n-Channel Transistors [J] . Wong H.-S., Ang K.-W., Chan L., IEEE Electron Device Letters . 2008,第5期

机译：在n沟道晶体管的源/漏扩展中形成了具有高替代碳浓度和原位掺杂的硅碳应力源
3. Performance Benefits of Diamond-like Carbon Liner Stressor in Strained P-Channel Field-Effect Transistors With Silicon–Germanium Source and Drain [J] . Tan K.-M., Yang M., Fang W.-W., Electron Device Letters, IEEE . 2009,第3期

机译：类金刚石碳衬里应力源在带硅锗源和漏极的应变P沟道场效应晶体管中的性能优势
4. P-Channel I-MOS Transistor featuring Silicon Nano-Wire with Multiple-Gates, Strained Si{sub}(1-y)C{sub}y, I-region, in situ doped Si{sub}(1-y)C{sub}y Source, and Sub-5mV/decade Subthreshold Swing [C] . Eng-Huat Toh, Grace Huiqi Wang, Doran Weeks, International Symposium on VLSI Technology, Systems and Applications . 2008

机译：P沟道I-MOS晶体管，具有多门，应变Si {sub}（1-y）c {sub} y，i-region，原位掺杂si {sub}（1-y）c {sub} y源，和子5mv /十年亚阈值摆幅
5. Band engineering in silicon/silicon(1-y)carbon(y) and silicon/silicon(1-x-y)germanium(x)carbon(y) heterostructures and application to PNP heterojunction bipolar transistors (Silicon carbide, Silicon germanium carbide). [D] . Singh, Dinkar V. 2001

机译：硅/硅（1-y）碳（y）和硅/硅（1-x-y）锗（x）碳（y）异质结构的能带工程及其在PNP异质结双极晶体管（碳化硅，碳化硅锗）中的应用。
6. Silicon nanowire and carbon nanotube hybrid for room temperature multiwavelength light source [O] . Maria Josè Lo Faro, Cristiano D’Andrea, Elena Messina, -1

机译：用于室温多波长光源的硅纳米线和碳纳米管混合材料
7. In-situ doped junctionless polysilicon nanowires field effect transistors for low-cost biosensors [O] . Zulfiqar Azeem, Patou François, Pfreundt Andrea, 2017

机译：用于低成本生物传感器的原位掺杂无结多晶硅纳米线场效应晶体管

Cointegration of In Situ Doped Silicon;Carbon Source and Silicon;Carbon I-Region in P-Channel Silicon Nanowire Impact-Ionization Transistor

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