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Beside the VTH-tunability, a raised SiGe S/D module offers higher LG-scalability than an embedded SiGe S/D in SiGe-IFQW pFETs. In-depth transport study of record performing 1.5mA/µm-ION strained-SiGe IFQW pFETs reveals that mobility improvement is still the key performance booster whereas LG-scaling has limited impact.
A 2nd generation of Implant Free Quantum Well pFETs is presented in this work. SiGe25%-embedded Source/Drain was implemented, leading to an excellent short channel control and logic performance (1mA/um-ION@-1V). No narrow-width effect was found and a multi-VTH strategy is also offered. Performance of the strained-IFQW pFETs was finally demonstrated at lower VDD.
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