Title :
Damage removal/dopant diffusion tradeoffs in ultra-shallow implanted p+-n junctions
Author :
Fair, Richard B.
Author_Institution :
Dept. of Electr. Eng., Duke Univ., Durham, NC, USA
fDate :
10/1/1990 12:00:00 AM
Abstract :
The tradeoffs between implant damage annealing and shallow junction formation are investigated. For very-low-energy amorphizing implants the time for damage anneal has a fourth-power dependence on depth below the Si surface. The depth effect depends on the type of amorphizing ion. It is shown that as a result, implanted B in Ge-preamorphized Si diffuses with no detectable self-interstitial supersaturation if the damage is <600 Å deep. Conditions for forming defect-free, shallow p+-n junctions are described in design curves and comparisons are made between several junction-formation approaches. Implantation of B at energies below 2 keV offers an attractive way of achieving 500-Å junctions
Keywords :
amorphisation; annealing; boron; elemental semiconductors; ion implantation; p-n homojunctions; semiconductor doping; silicon; 2 keV; 500 to 600 A; B diffusion; Si:Ge,B; depth effect; design curves; fourth-power dependence on depth; implant damage annealing; junction-formation approaches; shallow junction formation; time for damage anneal; tradeoffs; ultra-shallow implanted p+-n junctions; very-low-energy amorphizing implants; Amorphous materials; Crystallization; Electron devices; Etching; Helium; Implants; Ion implantation; Rapid thermal annealing; Temperature;
Journal_Title :
Electron Devices, IEEE Transactions on
