Title :
High activity of B during solid-phase epitaxy in a pre-amorphized layer formed by Ge ion implantation and deactivation during a subsequent thermal process
Author :
Suzuki, Kunihiro ; Tashiro, Hiroko ; Narita, Kazuko ; Kataoka, Yuji
Author_Institution :
Fujitsu Labs. Ltd., Kanagawa, Japan
fDate :
5/1/2004 12:00:00 AM
Abstract :
We have shown that ion-implanted boron (B) in an amorphous layer formed through Ge ion implantation becomes highly active during solid-phase epitaxy. The activated B concentration reaches about 1020 cm-3 and is almost completely independent of the temperature. This active concentration corresponds to the solid solubility at 900°C, hence the B becomes active at levels greater than the solid solubility below this temperature. This activated B was deactivated as a result of the subsequent thermal process in which the diffusion length reached about 10 nm. A low-resistance shallow junction can thus be realized in the low-temperature region provided we end the annealing before the onset of the rise in resistance.
Keywords :
boron; elemental semiconductors; germanium; ion implantation; rapid thermal annealing; semiconductor doping; semiconductor epitaxial layers; silicon; solid phase epitaxial growth; solid solubility; 900 degC; Ge ion implantation; Si:Ge,B; activation; amorphous layer; annealing; boron; deactivation; high activity; ion-implanted; low-resistance shallow junction; pre-amorphized layer; resistance; solid solubility; solid-phase epitaxy; thermal process; Amorphous materials; Annealing; Boron; Epitaxial growth; Ion implantation; MOSFETs; Solids; Substrates; Temperature; Thermal resistance; Activation; B; boron; deactivation; ion implantation; solid-phase epitaxy;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2004.826864
