New opportunities for SiGe and Ge channel p-FETs

A thin body (fully depleted) strained SGOI device structure (FDSGOI), and a strained SiGe channel layer on SOI, were fabricated using scaled high-κ gate dielectrics and metal gate technology. The uniaxial strain effect and corresponding drive current enhancement reported by Irisawa et al. [1] for narrow-width devices was investigated on these structures. Although the strained FDSGOI device structure exhibited reduced off-state leakage compared to thicker body devices, and long-channel drive current enhancement under uniaxial strain, the loss of drive current enhancement at short channel length led to uncompetitive ION–IOFF characteristics. The SiGe on SOI structure showed the highest long-channel drive current enhancement (nearly 3×) in the narrowest devices, and also showed a significant reduction in off-state current. This trend was maintained down to the shortest channel lengths studied here and resulted in ION–IOFF characteristics that were competitive with contemporary uniaxial strained Si channel devices.