Add to ORKGIn this report, we have achieved a significant increase in the electrically active dopant fraction in Indium (In)-implanted Si 0.35 Ge 0.65 , by co-doping with the isovalent element Carbon (C). Electrical measurements have been correlated with X-ray absorption spectroscopy to determine the electrical properties and the In atom lattice location. With C + In co-doping, the solid solubility of In in Si 0.35 Ge 0.65 was at least tripled from between 0.02 and 0.06 at% to between 0.2 and 0.6 at% as a result of C-In pair formation, which suppressed In metal precipitation. A dramatic improvement of electrical properties was thus attained in the co-doped samples
Shallow Indium implants and Indium-Carbon co-implants have been subjected to flash anneals and a com...
Shallow Indium implants and Indium-Carbon co-implants have been subjected to flash anneals and a com...
We investigate the effect of the pre-amorphisation damage on the structural properties, and dopant d...
In this report, we have achieved a significant increase in the electrically active dopant fraction i...
At high dopant concentrations in Ge, electrically activating all implanted dopants is a major obstac...
Electrical activation of In of 18%–52% of the implanted dose (531014 cm-²) was obtained in Si sample...
In this work we investigate the diffusion and the electrical activation of In atoms implanted into s...
In this work we investigate the diffusion and the electrical activation of In atoms implanted in sil...
A novel aspect of the carbon effect on indium electrical activation in silicon is presented. It is s...
This thesis reports a study of a viable way to pursue the aim of the production of ultra-shallow pn ...
The effect of C on the implantation damage accumulation in Si crystal and on the electrical T activa...
The electrical properties of dopants in Si are of primary importance for the realization of electron...
It is widely accepted that when transistors are scaled beyond the 10-nm technology generation i...
The structural configurations of In implanted Ge have been studied via x-ray absorption spectroscopy...
The diffusion behavior and the electrical characteristics of indium doped layers in silicon were stu...
Shallow Indium implants and Indium-Carbon co-implants have been subjected to flash anneals and a com...
Shallow Indium implants and Indium-Carbon co-implants have been subjected to flash anneals and a com...
We investigate the effect of the pre-amorphisation damage on the structural properties, and dopant d...
In this report, we have achieved a significant increase in the electrically active dopant fraction i...
At high dopant concentrations in Ge, electrically activating all implanted dopants is a major obstac...
Electrical activation of In of 18%–52% of the implanted dose (531014 cm-²) was obtained in Si sample...
In this work we investigate the diffusion and the electrical activation of In atoms implanted into s...
In this work we investigate the diffusion and the electrical activation of In atoms implanted in sil...
A novel aspect of the carbon effect on indium electrical activation in silicon is presented. It is s...
This thesis reports a study of a viable way to pursue the aim of the production of ultra-shallow pn ...
The effect of C on the implantation damage accumulation in Si crystal and on the electrical T activa...
The electrical properties of dopants in Si are of primary importance for the realization of electron...
It is widely accepted that when transistors are scaled beyond the 10-nm technology generation i...
The structural configurations of In implanted Ge have been studied via x-ray absorption spectroscopy...
The diffusion behavior and the electrical characteristics of indium doped layers in silicon were stu...
Shallow Indium implants and Indium-Carbon co-implants have been subjected to flash anneals and a com...
Shallow Indium implants and Indium-Carbon co-implants have been subjected to flash anneals and a com...
We investigate the effect of the pre-amorphisation damage on the structural properties, and dopant d...