采用浅沟槽隔离的NMOS和PMOS表面沟道晶体管的异常窄宽度效应

2005 IEEE Conference on Electron Devices and Solid-State Circuits Pub Date : 2005-12-19 DOI:10.1109/EDSSC.2005.1635391

W. Lau, K. See, C. Eng, W. K. Awl, K. Jo, K. Tee, J.Y. Lee, E. Quek, H. Kim, S.T.H. Chan, L. Chan

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引用次数: 4

摘要

采用浅沟槽隔离(STI)的NMOS表面沟道晶体管显示出反向窄宽度效应(RNWE)，即当沟道宽度减小时阈值电压变小。我们发现，在极短栅极长度的NMOS晶体管中，除了使用砷深S/D植入物外，还使用磷深S/D植入物，当通道宽度减小时，阈值电压先变大，然后当通道宽度进一步减小时，阈值电压又变小。我们将这种异常的窄宽度效应归因于磷植入物产生的Si间隙对TED的增强。PMOS晶体管表现出比NMOS晶体管更强的异常窄宽度效应。我们将这种异常的窄宽度效应归因于深硼S/D植入物产生的Si间隙增强了磷和砷的TED。

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Anomalous Narrow Width Effect in NMOS and PMOS Surface Channel Transistors Using Shallow Trench Isolation

NMOS surface-channel transistors using shallow trench isolation (STI) is known to show reverse narrow width effect (RNWE) such that the threshold voltage becomes smaller when the channel width decreases. We found that by using a phosphorus deep S/D implant in addition to an arsenic deep S/D implant, the threshold voltage first becomes larger when the channel width decreases and then later becomes smaller when the channel width further decreases for NMOS transistors with very small gate lengths. We attribute such an anomalous narrow width effect to an enhancement of TED due to Si interstitials generated by the phosphorus implant. PMOS transistors show up a much stronger anomalous narrow width effect compared to NMOS transistors. We attribute such an anomalous narrow width effect to an enhancement of phosphorus and arsenic TED due to Si interstitials generated by the deep boron S/D implant.

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2005 IEEE Conference on Electron Devices and Solid-State Circuits

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