Thickness Dependence of Hole Mobility in Ultrathin SiGe-Channel p-MOSFETs

Chleirigh C.N.; Theodore N.D.; Fukuyama H.; Mure S.; Ehrke H.-U.; Domenicucci A.; Hoyt J.L.

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Thickness Dependence of Hole Mobility in Ultrathin SiGe-Channel p-MOSFETs

机译：超薄SiGe沟道p-MOSFET中空穴迁移率的厚度依赖性

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摘要

A fundamental understanding of the mechanisms responsible for the dependence of hole mobility on SiGe channel layer thickness is presented for channel thicknesses down to 1.8 nm. This understanding is critical to the design of strained SiGe p-MOSFETs, as lattice mismatch limits the thickness of SiGe that can be grown on Si and as Ge outdiffusion during processing reduces the Ge fraction. Temperature-dependent measurements are used to extract the phonon-limited mobility as a function of SiGe channel thickness for strained Si_0.57Ge_0.43 heterostructures on bulk Si. The hole mobility is shown to degrade significantly for channel thickness below 4 nm due to a combination of phonon and interface scattering. Due to the finite nature of the quantum-well barrier, SiGe film thickness fluctuation scattering is not significant in this structure for channel thickness greater than 2.8 nm.

机译：对于低至1.8 nm的沟道厚度，提出了对导致空穴迁移率与SiGe沟道层厚度相关的机理的基本理解。这种理解对于应变SiGe p-MOSFET的设计至关重要，因为晶格失配限制了可以在Si上生长的SiGe的厚度，并且在处理过程中Ge的扩散降低了Ge的比例。对于块状Si上的应变Si _{0.57 Ge _{0.43 异质结构，采用温度相关测量来提取声子极限迁移率随SiGe沟道厚度的变化。由于声子和界面散射的结合，对于低于4 nm的沟道厚度，空穴迁移率显示出显着降低。由于量子阱势垒的有限性质，对于大于2.8 nm的沟道厚度，在该结构中SiGe膜厚度波动散射不明显。}}

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来源
《IEEE Transactions on Electron Devices》 |2008年第10期|2687-2694|共8页
作者
Chleirigh C.N.; Theodore N.D.; Fukuyama H.; Mure S.; Ehrke H.-U.; Domenicucci A.; Hoyt J.L.;
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作者单位

Pixtronix Inc., Andover, MA;

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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
Ge-Si alloys; MOSFET; diffusion; hole mobility; phonons; thin film transistors; Si; SiGe; channel thickness dependency; critical thickness; film thickness fluctuation scattering; germanium; interface scattering; lattice mismatch limitation; outdiffusion; phonon scattering; phonon-limited mobility; quantum-well barrier; silicon; temperature-dependent measurements; ultrathin channel p-MOSFET design; heterostructure;

机译：Ge-Si合金;MOSFET;扩散;空穴迁移率;声子;薄膜晶体管;Si;SiGe;沟道厚度依赖性;临界厚度;膜厚度波动散射;锗;界面散射;晶格失配限制;扩散;声子散射;声子有限迁移率;量子阱势垒;硅;与温度有关的测量;超快沟道p-MOSFET设计;异质结构;

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专利

1. High-mobility modulation-doped SiGe-channel p-MOSFETs [J] . Verdonckt-Vandebroek S., Crabbe E.F. IEEE Electron Device Letters . 1991,第8期

机译：高迁移率调制掺杂的SiGe沟道p-MOSFET
2. High Hole-Mobility Strained- P-MOSFETs With High-K/Metal Gate: Role of Strained-Si Cap Thickness [J] . Hashemi P., Hoyt J. L. Electron Device Letters, IEEE . 2012,第2期

机译：具有高K /金属栅极的高空穴迁移率应变P-MOSFET：应变硅电容厚度的作用
3. Ultrathin organic single crystals: fabrication, field-effect transistors and thickness dependence of charge carrier mobility [J] . Hui Jiang, Ke Jie Tan, Keke K. Zhang Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology . 2011,第13期

机译：超薄有机单晶：制造，场效应晶体管和电荷载流子迁移率的厚度依赖性
4. Influence of Strained Si{sub}(1-y)Ge{sub}y Layer Thickness and Composition on Hole Mobility Enhancement in Heterostructure p-MOSFETs with Ge Contents y from 0.7 to 1.0 [C] . C. Ni Chleirigh, O. O. Olubuyide, J. L. Hoyt Electrochemical Society . 2006

机译：应变Si {Sub}（1-Y）Ge {y} y层厚度和组成对异质结构P-MOSFET的影响与GE含量y的影响，从0.7到1.0
5. Strongly Interacting Electrons and Holes in Ultrathin MoTe2 Heterostructures [D] . Pleskot, Dennis L. 2019

机译：超薄MoTe2异质结构中的强相互作用电子和空穴
6. Clinical and cost-effectiveness of internal limiting membrane peeling for patients with idiopathic full thickness macular hole. Protocol for a Randomised Controlled Trial: FILMS (Full-thickness macular hole and Internal Limiting Membrane peeling Study) [O] . Noemi Lois, Jennifer Burr, John Norrie, 2008

机译：特发性全层黄斑裂孔内膜剥脱的临床和成本效益。随机对照试验的方案：FILMS（全厚度黄斑裂孔和内部限制膜剥离研究）
7. High-mobility modulation-doped SiGe-channel p-MOSFETs [O] . S. Verdonckt-Vandebroek, E.F. Crabbe, B.S. Meyerson, 1991

机译：高迁移率调制掺杂SiGe通道P-MOSFET

Thickness Dependence of Hole Mobility in Ultrathin SiGe-Channel p-MOSFETs

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