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Reduction of parasitic bipolar transistor action and punchthrough susceptibility in MOSFETs using Si/Si1-xGex sources and drains

Reduction of parasitic bipolar transistor action and punchthrough susceptibility in MOSFETs using Si/Si1-xGex sources and drains

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Silicon CMOS devices are subject to some limitations as the dimensions are scaled down for VLSI applications. The incorporation of SiGe into the p-channel device can reduce parasitic bipoiar action and punchthrough susceptibility. The authors compare the properties of elevated source and drain devices with and without Si1-xGex in the source and drain regions. We show that the parasitic bipolar gain is reduced by a factor of 18 and that the punchthrough effects seen in silicon devices are absent in the Si0.8Ge0.2 devices.

Inspec keywords: semiconductor materials; silicon; MOSFET; elemental semiconductors; semiconductor device reliability; Ge-Si alloys; VLSI

Other keywords: punchthrough susceptibility; Si-SiGe; MOSFETs; VLSI applications; CMOS devices; parasitic bipolar transistor action; source regions; drain regions; p-channel device

Subjects: Reliability; Insulated gate field effect transistors; Maintenance and reliability

References

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      • Wu, Z.Y., Hall, S., Eccleston, W.: `Suppression of the parasitic bipolar transistor in deep sub-micron MOSFETsby the use of a narrow band-gap, SiGe source', 25th ESSDERC, 25–27 September 1995.
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