Carrier mobility in p-MOSFET with atomic-layer-deposited Si-nitride/SiO2 stack gate dielectrics

P/sup +/-poly-Si gate MOS transistors with atomic-layer-deposited Si-nitride/SiO/sub 2/ stack gate dielectrics (EOT=2.50 nm) have been fabricated. Similar to the reference samples with SiO/sub 2/ gate dielectrics (T/sub ox/=2.45 nm), clear saturation characteristics of drain current are obtained for the samples with stack gate dielectrics. Identical hole-effective mobility is obtained for the samples with the SiO/sub 2/ and the stack gate dielectrics. The maximum value of hole-effective mobility is the same (54 cm/sup 2//Vs) both for the stack and the SiO/sub 2/ samples. Hot carrier-induced mobility degradation in transistors with the stack gate dielectrics was found to be identical to that in transistors with the SiO/sub 2/ gate dielectrics. In addition to the suppression of boron penetration, better TDDB characteristics, and soft breakdown free phenomena for the stack dielectrics (reported previously), the almost equal effective mobility (with respect to that of SiO/sub 2/ dielectrics) has ensured the proposed stack gate dielectrics to be very promising for sub-100-nm technology generations.