We demonstrate that ultrashallow high-concentration phosphorus profiles in silicon diffuse preferentially toward the surface during low-temperature annealing at 700 °C after recrystallization of an amorphous layer. In this work, we observe the preferential diffusion following a preamorphizing germanium implant, and also after a self-amorphizing phosphorus implant. This phenomenon is driven by the presence and dissolution of silicon interstitial defects. The greater the distance between the defect band and the high-concentration phosphorus profile, the less the preferential diffusion for a fixed anneal time. The overall result of this effect is a phosphorus profile that is significantly shallower and steeper than after implant.</p
In this work, both phosphorus doped and undoped Au/Si contact structures were investigated by scanni...
As device dimensions shrink to submicron levels, good design of ultrashallow junctions has become in...
As device dimensions shrink to submicron levels, good design of ultrashallow junctions has become in...
We demonstrate that ultrashallow high-concentration phosphorus profiles in silicon diffuse preferent...
We demonstrate that ultrashallow high-concentration phosphorus profiles in silicon diffuse preferent...
We demonstrate that ultrashallow high-concentration phosphorus profiles in silicon diffuse preferent...
We demonstrate that ultrashallow high-concentration phosphorus profiles in silicon diffuse preferent...
\u3cp\u3eWe demonstrate that ultrashallow high-concentration phosphorus profiles in silicon diffuse ...
Transient enhanced diffusion of phosphorus in silicon has been investigated for implants below and a...
Transient diffusion of ion-implanted phosphorus under nonoxidizing conditions is studied for P doses...
International audienceAn intriguing uphill diffusion phenomenon related to phosphorus has been obser...
International audienceAn intriguing uphill diffusion phenomenon related to phosphorus has been obser...
International audienceAn intriguing uphill diffusion phenomenon related to phosphorus has been obser...
International audienceAn intriguing uphill diffusion phenomenon related to phosphorus has been obser...
We have investigated transient enhanced diffusion of phosphorus in silicon following implantation wi...
In this work, both phosphorus doped and undoped Au/Si contact structures were investigated by scanni...
As device dimensions shrink to submicron levels, good design of ultrashallow junctions has become in...
As device dimensions shrink to submicron levels, good design of ultrashallow junctions has become in...
We demonstrate that ultrashallow high-concentration phosphorus profiles in silicon diffuse preferent...
We demonstrate that ultrashallow high-concentration phosphorus profiles in silicon diffuse preferent...
We demonstrate that ultrashallow high-concentration phosphorus profiles in silicon diffuse preferent...
We demonstrate that ultrashallow high-concentration phosphorus profiles in silicon diffuse preferent...
\u3cp\u3eWe demonstrate that ultrashallow high-concentration phosphorus profiles in silicon diffuse ...
Transient enhanced diffusion of phosphorus in silicon has been investigated for implants below and a...
Transient diffusion of ion-implanted phosphorus under nonoxidizing conditions is studied for P doses...
International audienceAn intriguing uphill diffusion phenomenon related to phosphorus has been obser...
International audienceAn intriguing uphill diffusion phenomenon related to phosphorus has been obser...
International audienceAn intriguing uphill diffusion phenomenon related to phosphorus has been obser...
International audienceAn intriguing uphill diffusion phenomenon related to phosphorus has been obser...
We have investigated transient enhanced diffusion of phosphorus in silicon following implantation wi...
In this work, both phosphorus doped and undoped Au/Si contact structures were investigated by scanni...
As device dimensions shrink to submicron levels, good design of ultrashallow junctions has become in...
As device dimensions shrink to submicron levels, good design of ultrashallow junctions has become in...