n-MOSFET With Silicon–Carbon Source/Drain for Enhancement of Carrier Transport |
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| Authors: | King-Jien Chui Kah-Wee Ang Narayanan Balasubramanian Ming-Fu Li Ganesh S Samudra Yee-Chia Yeo |
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| Affiliation: | Taiwan Semicond. Manuf. Co., Hsinchu; |
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| Abstract: | A novel strained-silicon (Si) n-MOSFET with 50-nm gate length is reported. The strained n-MOSFET features silicon-carbon (Si1-yCy) source and drain (S/D) regions formed by a Si recess etch and a selective epitaxy of Si1-yCy in the S/D regions. The carbon mole fraction incorporated is 0.013. Lattice mismatch of ~0.56% between Si 0.987C0.013 and Si results in lateral tensile strain and vertical compressive strain in the Si channel region, both contributing to substantial electron-mobility enhancement. The conduction-band offset DeltaEc between the Si0.987 C0.013 source and the strained Si channel could also contribute to an increased electron injection velocity nuinj from the source. Implementation of the Si0.987 C0.013 S/D regions for n-MOSFET provides significant drive current IDsat enhancement of up to 50% at a gate length of 50 nm |
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