Strained CMOS Devices With Shallow-Trench-Isolation Stress Buffer Layers

Li Y.; Chen H.-M.; Yu S.-M.; Hwang J.-R.; Yang F.-L.

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Strained CMOS Devices With Shallow-Trench-Isolation Stress Buffer Layers

机译：具有浅沟道隔离应力缓冲层的应变CMOS器件

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In this brief, shallow-trench-isolation (STI) stress buffer techniques, including sidewall stress buffer and channel surface buffer layers, are developed to reduce the impact of compressive STI stress on the mobility of advanced n-type MOS (NMOS) devices. Our investigation shows that a 7% driving current gain at an NMOS device has been achieved, whereas no degradation at a p-type MOS (PMOS) device was observed. The same junction leakage at both the NMOS and PMOS devices was maintained. A stress relaxation model with simulation is thus proposed to account for the enhanced transport characteristics.

机译：在本文中，开发了浅沟槽隔离（STI）应力缓冲技术，包括侧壁应力缓冲和沟道表面缓冲层，以减少STI压缩应力对高级n型MOS（NMOS）器件迁移率的影响。我们的研究表明，在NMOS器件上实现了7％的驱动电流增益，而在p型MOS（PMOS）器件上没有观察到退化。 NMOS和PMOS器件的结泄漏均保持不变。因此，提出了带有仿真的应力松弛模型，以说明增强的运输特性。

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来源
《IEEE Transactions on Electron Devices》 |2008年第4期|p.1085-1089|共5页
作者
Li Y.; Chen H.-M.; Yu S.-M.; Hwang J.-R.; Yang F.-L.;
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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
中图分类无线电电子学、电信技术;
关键词
Channel surface buffer layer; MOS devices; fabrication; measurement; mobility; shallow-trench isolation (STI); sidewall stress buffer layer; simulation; transport characteristics;

机译：沟道表面缓冲层;MOS器件;制造;测量;迁移率;浅沟槽隔离（STI）;侧壁应力缓冲层;模拟;传输特性;

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Strained CMOS Devices With Shallow-Trench-Isolation Stress Buffer Layers

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