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Electrical properties of Si p+-n junctions for sub-0.25μm CMOS fabricated by Ga FIB implantation
Authors:Mogul   H.C. Steckl   A.J. Ganin   E.
Affiliation:Dept. of Electr. & Comput. Eng., Cincinnati Univ., OH;
Abstract:p+-n junction diodes for sub-0.25-μm CMOS circuits were fabricated using focused ion beam (FIB) Ga implantation into n-Si (100) substrates with background doping of Nb=(5-10)×10 15 and Nb+=(1-10)×1017 cm-3. Implant energy was varied from 2 to 50 keV at doses ranging from 1×1013 to 1×1015 cm-2 with different scan speeds. Rapid thermal annealing (RTA) was performed at either 600 °C or 700°C for 30 s. Diodes fabricated on Nb+ with 10-keV Ga+ exhibited a leakage current (IR) 100× smaller than those fabricated with 50-keV Ga+. Tunneling was determined to be the major current transport mechanism for the diodes fabricated on Nb+ substrates. An optimal condition for IR on Nb+ substrates was obtained at 15 keV/1×1015 cm-2. Diodes annealed at 600°C were found to have an IR 1000× smaller than those annealed at 700°C. I-V characteristics of diodes fabricated on Nb substrates with low-energy Ga+ showed no implant energy dependence. I-V characteristics were also measured as a function of temperature from 25 to 200°C. For diodes implanted with 15-keV Ga +, the cross-over temperatures between Idiff and Ig-r occurred at 106°C for Nb + and at 91°C for Nb substrates
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