Add to ORKGWe present an analytic model for the soft breakdown failure mode in ultrathin SiO2 films based on the conduction theory through quantum point contacts. The breakdown path across the oxide is represented by a three-dimensional constriction in which, due to the lateral confinement of the electron wave functions, discrete transverse energy levels arise. In the longitudinal direction, such levels are viewed by the incoming electrons as effective potential barriers, which can be treated using the one-dimensional tunneling formalism. In addition, it is shown that our mesoscopic approach is also consistent with the hard breakdown conduction mode
The post soft breakdown (SBD) current saturation behavior was studied on the basis of electron veloc...
In this work, we report on the occurrence of the soft breakdown (SBD) failure mode in 20 nm-thick fi...
The breakdown dynamics of ultrathin SiO2 films in metal-oxide-semiconductor structures has been inve...
Multiple conduction states in ultra-thin SiO 2 films after hard breakdown could be observed when the...
The conduction mechanism of ultra-thin gate oxide n-metal-oxide-semiconductor field effect transisto...
[[abstract]]This paper investigated the degradation and breakdown characteristics of an ultrathin si...
When an ultrathin (<5 nm) oxide is subjected to electrical stress, several soft-breakdown events can...
A new approach based on Quantum Point Contact (QPC) are presented here to describe Soft Breakdown in...
The experimentally determined conduction mechanisms of gate leakage current are examined for two dif...
Defect current of ultrathin oxides after degradation and breakdown was investigated by defect band s...
The physical origin of post soft breakdown (SBD) current saturation behavior of ultrathin gate oxide...
International audienceIn this study, we have investigated the electrical properties of the failure m...
Switching between well defined states of post-breakdown conduction in ultra-thin SiO 2 films is obse...
120 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.For ultrathin oxides, a new t...
Despite extensive experimental and theoretical studies, the atomistic mechanisms responsible for die...
The post soft breakdown (SBD) current saturation behavior was studied on the basis of electron veloc...
In this work, we report on the occurrence of the soft breakdown (SBD) failure mode in 20 nm-thick fi...
The breakdown dynamics of ultrathin SiO2 films in metal-oxide-semiconductor structures has been inve...
Multiple conduction states in ultra-thin SiO 2 films after hard breakdown could be observed when the...
The conduction mechanism of ultra-thin gate oxide n-metal-oxide-semiconductor field effect transisto...
[[abstract]]This paper investigated the degradation and breakdown characteristics of an ultrathin si...
When an ultrathin (<5 nm) oxide is subjected to electrical stress, several soft-breakdown events can...
A new approach based on Quantum Point Contact (QPC) are presented here to describe Soft Breakdown in...
The experimentally determined conduction mechanisms of gate leakage current are examined for two dif...
Defect current of ultrathin oxides after degradation and breakdown was investigated by defect band s...
The physical origin of post soft breakdown (SBD) current saturation behavior of ultrathin gate oxide...
International audienceIn this study, we have investigated the electrical properties of the failure m...
Switching between well defined states of post-breakdown conduction in ultra-thin SiO 2 films is obse...
120 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.For ultrathin oxides, a new t...
Despite extensive experimental and theoretical studies, the atomistic mechanisms responsible for die...
The post soft breakdown (SBD) current saturation behavior was studied on the basis of electron veloc...
In this work, we report on the occurrence of the soft breakdown (SBD) failure mode in 20 nm-thick fi...
The breakdown dynamics of ultrathin SiO2 films in metal-oxide-semiconductor structures has been inve...