Modeling of the phosphorus radiation-enhanced diffusion in the course of implantation of high-energy protons into an elevated-temperature silicon substrate and during its treatment in a hydrogen-containing plasma was carried out. It follows from the results obtained that the radiation-enhanced diffusion occurs by means of formation, migration, and dissociation of “impurity atom – silicon self-interstitial” pairs being in a local thermodynamic equilibrium with substitutionally dissolved impurity and nonequilibrium point defects generated due to external irradiation. The decrease of the average migration length with the proton energy can be due to the interaction of silicon self-interstitials with the vacancies generated at the surface or wit...
We demonstrate that ultrashallow high-concentration phosphorus profiles in silicon diffuse preferent...
The impact of the thermal budget on hydrogen-related donor profiles in high purity silicon implanted...
A new model is developed for the high concentration diffusion of phosphorus in silicon : it is shown...
Modeling of the phosphorus radiation-enhanced diffusion in the course of implantation of high-energy...
We have investigated transient enhanced diffusion of phosphorus in silicon following implantation wi...
We present experimental results of impurity and self-diffusion in an isotopically controlled silicon...
In this paper, we develop and analyze models for the coupled iffusion of dopants and point defects, ...
L'étude de la diffusion accélérée des impuretés dans le silicium, sous l'effet d'un bombardement de ...
P diffuses predominantly by the interstitial mechanism in Si. Assuming that there is a strong bindin...
Transient diffusion of ion-implanted phosphorus under nonoxidizing conditions is studied for P doses...
P diffuses predominantly by the interstitial mechanism in Si. Assuming that there is a strong bindin...
Improving the efficiency of silicon (Si) solar cells relies on the understanding and optimization of...
Previous studies [1], [2] have been made of the diffusion enhancement in high temperature proton irr...
Transient enhanced diffusion of phosphorus in silicon has been investigated for implants below and a...
Phosphorus diffusion in crystalline silicon in doping from a surface source at a temperature of 840o...
We demonstrate that ultrashallow high-concentration phosphorus profiles in silicon diffuse preferent...
The impact of the thermal budget on hydrogen-related donor profiles in high purity silicon implanted...
A new model is developed for the high concentration diffusion of phosphorus in silicon : it is shown...
Modeling of the phosphorus radiation-enhanced diffusion in the course of implantation of high-energy...
We have investigated transient enhanced diffusion of phosphorus in silicon following implantation wi...
We present experimental results of impurity and self-diffusion in an isotopically controlled silicon...
In this paper, we develop and analyze models for the coupled iffusion of dopants and point defects, ...
L'étude de la diffusion accélérée des impuretés dans le silicium, sous l'effet d'un bombardement de ...
P diffuses predominantly by the interstitial mechanism in Si. Assuming that there is a strong bindin...
Transient diffusion of ion-implanted phosphorus under nonoxidizing conditions is studied for P doses...
P diffuses predominantly by the interstitial mechanism in Si. Assuming that there is a strong bindin...
Improving the efficiency of silicon (Si) solar cells relies on the understanding and optimization of...
Previous studies [1], [2] have been made of the diffusion enhancement in high temperature proton irr...
Transient enhanced diffusion of phosphorus in silicon has been investigated for implants below and a...
Phosphorus diffusion in crystalline silicon in doping from a surface source at a temperature of 840o...
We demonstrate that ultrashallow high-concentration phosphorus profiles in silicon diffuse preferent...
The impact of the thermal budget on hydrogen-related donor profiles in high purity silicon implanted...
A new model is developed for the high concentration diffusion of phosphorus in silicon : it is shown...
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