BTI characteristics and mechanisms of metal gated HfO/sub 2/ films with enhanced interface/bulk process treatments

Abstract

Significant deviations in BTI characteristics for metal gate HfO/sub 2/ films compared to silicon oxide based films prove that conventional reliability models based on SiO/sub 2/ films can no longer be directly applied to HfO/sub 2/ based MOSFETS. This study shows the use of conventional accelerated reliability testing in the Fowler-Nordheim tunneling regime to extrapolate time to failure at operating voltages (direct tunneling regime) overestimates device lifetimes. Additionally, unlike conventional gate oxides, the slope of /spl Delta/V/sub t/ versus time (or the rate of charge trapping) in HfO/sub 2/ MOSFETS is dependent on stress voltage. The HfO/sub 2/ based metal gated nMOSFETS show poor PBTI characteristics and do not meet the 10 year lifetime criterion for threshold voltage stability. On the other hand, HfO/sub 2/ based pMOSFETS show superior NBTI behavior and meet the 10 year lifetime criterion. These results are contrary to the observations with conventional gate dielectrics. This paper explores the anomalous charge trapping behavior and provides a comprehensive study of the PBTI characteristics and recovery mechanisms in metal gated HfO/sub 2/ films.