The use of plasma-deposited silicon nitride as a final passivation over metal-gate CMOS integrated circuits degrades the radiation hardness of these devices. The hardness degradation is manifested by increased radiation-induced threshold voltage shifts caused principally by the charging of new interface states and, to a lesser extent, by the trapping of holes created upon exposure to ionizing radiation. The threshold voltage shifts are a strong function of the deposition temperature, and show very little dependence on thickness for films deposited at 300/sup 0/C. There is some correlation between the threshold voltage shifts and the hydrogen content of the PECVD silicon nitride films used as the final passivation layer as a function of depo...
This paper reports the experimental evidence of anomalous electrical characteristics of large test s...
AbstractHydrogenated silicon nitride and aluminum oxide passivation layers were deposited on boron d...
Oxygenated and standard (not oxygenated) silicon diodes processed by CNM and IRST have been irradiat...
The bonded hydrogen concentration in thermally annealed low-pressure chemical vapor deposition (LPCV...
In this paper, H introduction into low pressure chemical vapor deposited silicon nitride (LPCVD SiN)...
Plasma treatments are widely used in microelectronic industry but they may leave some residual passi...
This work investigates a double layer stack system that can be used for surface passivation of cryst...
The effect of H plasma exposure parameters, such as power, pressure and temperature, on the Si-SiO2 ...
Hydrogenated silicon nitride and aluminum oxide passivation layers were deposited on boron doped flo...
Exposing a plasma-enhanced chemical vapor deposition-deposited silicon nitride (SiNx) film to an ine...
In this study we investigate the influence of the hydrogen-rich silicon nitride (SiNx:H) deposition ...
Multicrystalline silicon (mc-Si) wafers show degradation due to carrier injection. This carrier-indu...
The time evolution of interface-state (Dit) buildup following radiation and high-field stressing in ...
Silicon nitride (SIN =:H) films were deposited onto A1, Mo, Si, and Ti substrates by RF plasma-enhan...
The influence of a short high-temperature step, comparable to the so-called firing of the metalliz...
This paper reports the experimental evidence of anomalous electrical characteristics of large test s...
AbstractHydrogenated silicon nitride and aluminum oxide passivation layers were deposited on boron d...
Oxygenated and standard (not oxygenated) silicon diodes processed by CNM and IRST have been irradiat...
The bonded hydrogen concentration in thermally annealed low-pressure chemical vapor deposition (LPCV...
In this paper, H introduction into low pressure chemical vapor deposited silicon nitride (LPCVD SiN)...
Plasma treatments are widely used in microelectronic industry but they may leave some residual passi...
This work investigates a double layer stack system that can be used for surface passivation of cryst...
The effect of H plasma exposure parameters, such as power, pressure and temperature, on the Si-SiO2 ...
Hydrogenated silicon nitride and aluminum oxide passivation layers were deposited on boron doped flo...
Exposing a plasma-enhanced chemical vapor deposition-deposited silicon nitride (SiNx) film to an ine...
In this study we investigate the influence of the hydrogen-rich silicon nitride (SiNx:H) deposition ...
Multicrystalline silicon (mc-Si) wafers show degradation due to carrier injection. This carrier-indu...
The time evolution of interface-state (Dit) buildup following radiation and high-field stressing in ...
Silicon nitride (SIN =:H) films were deposited onto A1, Mo, Si, and Ti substrates by RF plasma-enhan...
The influence of a short high-temperature step, comparable to the so-called firing of the metalliz...
This paper reports the experimental evidence of anomalous electrical characteristics of large test s...
AbstractHydrogenated silicon nitride and aluminum oxide passivation layers were deposited on boron d...
Oxygenated and standard (not oxygenated) silicon diodes processed by CNM and IRST have been irradiat...