| 摘要 |
Disclosed is a manufacturing method to fabricate Heterojunction Bipolar Transistors (HBTs) that enables self-alignment of emitter and base metal contact layers with precise sub-micron spacing using a dielectric-assisted metal lift-off process. Such an HBT process relies on the formation of an "H-shaped" dielectric (i.e., Si<SUB>3</SUB>N<SUB>4</SUB>/SiO<SUB>2</SUB>) mask conformally deposited on top of the emitter contact metallization that is used to remove excess base metal through lift-off by a wet chemical HF-based etch. This HBT process also uses a thin selective etch-stop layer buried within the emitter layer to prevent wet chemical over-etching to the base and improves HBT reliability by forming a non-conducting, depleted ledge above the extrinsic base layer. The geometry of the self-aligned emitter and base metal contacts in the HBT insures conformal coverage of dielectric encapsulation films, preferably Si<SUB>3</SUB>N<SUB>4 </SUB>and/or SiO<SUB>2</SUB>, for reliable HBT emitter p-n junction passivation. Thus, the disclosed HBT process enables scaling of narrow emitter stripe widths down to sub-micron dimensions producing transistors with cut-off frequencies in the range of several hundred GigaHertz.
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