We use the thermochemical model of bond breakage to investigate the degradation occurring in dual layer SiOx/HfSiON gate dielectric stacks during low compliance soft breakdown experiments, with the ultimate goal of identifying the first layer that degrades. Time dependent dielectric breakdown (TDDB) experiments reveal that the degradation of conventional SiON and SiOx/HfSiON dielectric stacks have the same kinetics, i.e., activation energy and field acceleration factor. This finding, supported by physics-based breakdown simulations, indicates that the degradation in SiOx/HFSiON stacks is governed by the defect generation in the silicon oxide interfacial layer, which is the first that degrades in the multi-layer stack
The evolution of the electrical properties of HfO2/SiO2/Si dielectric stacks under electrical stress...
Localized progressive wear-out and degradation of ultra-thin dielectrics around the oxygen vacancy p...
The failure mechanisms in HfO2 high-k/polycrystalline-silicon (poly-Si) and HfO2 high-k/TaN/TiN gat...
We use the thermochemical model of bond breakage to investigate the degradation occurring in dual la...
We apply a systematic approach to identify a high-k/metal gate stack degradation mechanism. Our resu...
The continued reduction in gate length of metal-oxide-semiconductor (MOS) transistors has required a...
A mechanism of degradation and breakdown in highk/metal gate transistors was investigated. Based on ...
We use a multi-scale modeling framework to investigate time dependent dielectric breakdown (TDDB) di...
We have compared the thermal damage in ultrathin gate SiO2 layers of 5.6 and 3 nm thickness after in...
We have developed a detailed model for hot-carrier induced interface state generation in silicon me...
Both negative bias temperature instability (NBTI) and time dependent dielectric breakdown (TDDB) are...
The evolution of the electrical properties of HfO2/SiO2/Si dielectric stacks under electrical stress...
High-κ (HK) dielectric thin films are currently the most suited insulators for complementary metal-o...
Hafnium Oxide based gate stacks are considered to be the potential candidates to replace SiO2 in com...
International audienceThis paper presents a theoretical framework about interface state creation rat...
The evolution of the electrical properties of HfO2/SiO2/Si dielectric stacks under electrical stress...
Localized progressive wear-out and degradation of ultra-thin dielectrics around the oxygen vacancy p...
The failure mechanisms in HfO2 high-k/polycrystalline-silicon (poly-Si) and HfO2 high-k/TaN/TiN gat...
We use the thermochemical model of bond breakage to investigate the degradation occurring in dual la...
We apply a systematic approach to identify a high-k/metal gate stack degradation mechanism. Our resu...
The continued reduction in gate length of metal-oxide-semiconductor (MOS) transistors has required a...
A mechanism of degradation and breakdown in highk/metal gate transistors was investigated. Based on ...
We use a multi-scale modeling framework to investigate time dependent dielectric breakdown (TDDB) di...
We have compared the thermal damage in ultrathin gate SiO2 layers of 5.6 and 3 nm thickness after in...
We have developed a detailed model for hot-carrier induced interface state generation in silicon me...
Both negative bias temperature instability (NBTI) and time dependent dielectric breakdown (TDDB) are...
The evolution of the electrical properties of HfO2/SiO2/Si dielectric stacks under electrical stress...
High-κ (HK) dielectric thin films are currently the most suited insulators for complementary metal-o...
Hafnium Oxide based gate stacks are considered to be the potential candidates to replace SiO2 in com...
International audienceThis paper presents a theoretical framework about interface state creation rat...
The evolution of the electrical properties of HfO2/SiO2/Si dielectric stacks under electrical stress...
Localized progressive wear-out and degradation of ultra-thin dielectrics around the oxygen vacancy p...
The failure mechanisms in HfO2 high-k/polycrystalline-silicon (poly-Si) and HfO2 high-k/TaN/TiN gat...