Identification of perimeter depletion and emitter plug effects in deep-submicrometer, shallow-junction polysilicon emitter bipolar transistors

Two new types of narrow-emitter effects are identified in shallow and narrow-junction polysilicon emitter bipolar transistors. These effects result from a lower doping concentration close to the emitter perimeter of large devices (perimeter depletion effect) or in very-narrow-emitter devices where the polysilicon plugs up the emitter window (emitter plug effect). The consequence is a locally shallower emitter junction which causes a reduced collector current density and a nonideal base current due to a partial overlap of the emitter-base space-charge region with the poly/monosilicon interface. The nonuniform doping in the polysilicon is verified by energy-dispersive X-ray spectroscopy (EDX) measurements. Electrical measurements give a clear indication of the emitter plug effect for two different self-aligned transistor structures, and further evidence is given by a comparison of various poly emitter processes