19 research outputs found
Fabrication and high temperature characteristics of ion-implanted GaAs bipolar transistors and ring-oscillators
Ion implantation techniques that permit the reproducible fabrication of bipolar GaAs integrated circuits are studied. A 15 stage ring oscillator and discrete transistor were characterized between 25 and 400 C. The current gain of the transistor was found to increase slightly with temperature. The diode leakage currents increase with an activation energy of approximately 1 eV and dominate the transistor leakage current 1 sub CEO above 200 C. Present devices fail catastrophically at about 400 C because of Au-metallization
Outdiffusion of Be during rapid thermal annealing of highâdose Beâimplanted GaAs
The outdiffusion of Be implanted into GaAs has been found to be identical after capless or capped (Si3N4 or Si02 ) rapid thermal annealing (RTA) at 900-1000 ÂșC and to depend on the Be dose and its proximity to the surface. The outdiffusion is more pronounced when the Be implant is shallow (< 0.1 p,m) andlor the Be + dose is high (> 1 X 1015 cm-ÂČ). It is demonstrated that the Be outdiffusion is driven by the presence of a highly damaged surface layer. Auger results suggest the formation of a BeOx compound at the surface of a high.dose (1 X 1016 cm-ÂČ) Be-implanted sample that underwent capless RTA at 1000 ÂșC/1 s. It appears that BeOx formation occurs when the outdiffused Be interacts with the native Gal As oxides during annealing. AU the Be remaining in the GaAs after a > 900 ÂșC/2s RTA is electrically active