Device quality SiO2 films with a thickness of 15 nm have been thermally nitrided in NH3 by a rapid thermal processing technique. The properties of the interface between these films and a Si substrate have been investigated by a conductance technique. The results show that the nitridation increases the density and time constant of interface states and enhances the fluctuation of surface potential, but changes the hole capture cross section only slightly. Specifically, nitridation introduces a peak of interface states at 0.25 eV below midgap and the energy dependency of hole capture cross section is suppressed. Using a patchwork model, the surface potential fluctuation can be well simulated and a surface charge nonuniformity with a long-wavel...
In this paper we first present the 'wet N2O' furnace oxidation process to grow nitrided tunnel oxi...
High quality silicon dioxide films have been produced using a direct plasma-enhanced chemical vapour...
[[abstract]]In this experiment the ultrahigh vacuum environment of a molecular‐beam epitaxy reactor ...
Thin silicon dioxide films nitrided in N2O by rapid thermal processing (RTP) or in a classical furna...
C-V and I-V studies reveal that thermal nitridation can harden Si/SiO2 interface but introduces some...
Charge trapping and dielectric wear-out properties of 8 and 30 nm SiO2 layers nitrided in the N2O ga...
The interface and bulk qualities of N2O-based oxides are investigated by means of backsurface Ar+ bo...
The nitridation of silicon and oxidized-silicon has been studied. The nitrided films were prepared a...
Electrical characterization of oxide-silicon and nitroxide-silicon interfaces has been extensively c...
Fast states at SiO[2]/SiC interfacesannealed in NO at 1150–1350 °C have been investigated. The respo...
Characteristics of fast surface states located at the SiO2-Si interface of thermally oxidized silico...
Reoxidized nitrided oxide is compared with nitrided oxides and dry SiO2 for radiation-induced interf...
La nitruration superficielle de films minces (~ 13nm) de SiO2 peut être stimulée en pratiquant des r...
In this paper we first present the 'wet N2O' furnace oxidation process to grow nitrided tunnel oxi...
Device-quality gate oxides have been nitrided using both rapid thermal processing and conventional f...
In this paper we first present the 'wet N2O' furnace oxidation process to grow nitrided tunnel oxi...
High quality silicon dioxide films have been produced using a direct plasma-enhanced chemical vapour...
[[abstract]]In this experiment the ultrahigh vacuum environment of a molecular‐beam epitaxy reactor ...
Thin silicon dioxide films nitrided in N2O by rapid thermal processing (RTP) or in a classical furna...
C-V and I-V studies reveal that thermal nitridation can harden Si/SiO2 interface but introduces some...
Charge trapping and dielectric wear-out properties of 8 and 30 nm SiO2 layers nitrided in the N2O ga...
The interface and bulk qualities of N2O-based oxides are investigated by means of backsurface Ar+ bo...
The nitridation of silicon and oxidized-silicon has been studied. The nitrided films were prepared a...
Electrical characterization of oxide-silicon and nitroxide-silicon interfaces has been extensively c...
Fast states at SiO[2]/SiC interfacesannealed in NO at 1150–1350 °C have been investigated. The respo...
Characteristics of fast surface states located at the SiO2-Si interface of thermally oxidized silico...
Reoxidized nitrided oxide is compared with nitrided oxides and dry SiO2 for radiation-induced interf...
La nitruration superficielle de films minces (~ 13nm) de SiO2 peut être stimulée en pratiquant des r...
In this paper we first present the 'wet N2O' furnace oxidation process to grow nitrided tunnel oxi...
Device-quality gate oxides have been nitrided using both rapid thermal processing and conventional f...
In this paper we first present the 'wet N2O' furnace oxidation process to grow nitrided tunnel oxi...
High quality silicon dioxide films have been produced using a direct plasma-enhanced chemical vapour...
[[abstract]]In this experiment the ultrahigh vacuum environment of a molecular‐beam epitaxy reactor ...