High-performance strained-SOI CMOS devices using thin film SiGe-on-insulator technology

We have developed high-performance strained-SOI CMOS devices on thin film relaxed SiGe-on-insulator (SGOI) substrates with high Ge content (25%) fabricated by the combination of separation-by-implanted-oxygen (SIMOX) and internal-thermal-oxidation (ITOX) techniques without using SiGe buffer structures. The maximum enhancement of electron and hole mobilities of strained-SOI devices against the universal mobility amounts to 85 and 53%, respectively. On the other hand, we have also observed the reduction of carrier mobility in a thinner strained-Si layer or at higher vertical electric field conditions. For the first time, we have demonstrated a high-speed CMOS ring-oscillator using strained-SOI devices, and its improvement amounts to 63% at the supply voltage of 1.5 V, compared to control-SOI CMOS.