Abstract
The incorporation of low concentrations of carbon (<10 20 cm −3) into the SiGe region of a heterojunction bipolar transistor (HBT) can significantly suppress boron outdiffusion caused by subsequent processing steps. This effect can be described by coupled diffusion of carbon atoms and Si point defects. We discuss the increase in performance and process margins in SiGe heterojunction bipolar technology by adding carbon. SiGe:C HBTs demonstrate excellent static parameters, exceeding the performance of state-of-the-art SiGe HBTs. Carbon also enhances the high frequency performance, because it allows one to use a high B doping level in a very thin SiGe base layer without outdiffusion from SiGe, even if applying post-epitaxial implants and anneals. Finally, we demonstrate the first modular integration of SiGe:C HBTs into a 0.25 μm, epi-free, dual-gate CMOS platform.
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