论文信息 - Rapid Melt Growth of Germanium Tunnel Junctions

Rapid Melt Growth of Germanium Tunnel Junctions

A rapid melt growth process for forming interband n + p+ Esaki tunnel junctions on Ge is shown. The process uses a phosphorus spin-on diffusant and rapid thermal annealing to form the n+ side of the junction, while for the p+ side, a deposited aluminum film serves both as an acceptor dopant source and a melt for epitaxial regrowth of p + Ge. The current density in these junctions depends strongly on the peak temperature of the Al-Ge melt and ranges between a few μA/μm 2 to over 1 mA/μm 2 . The use of a silicon nitride microcrucible improves the surface morphology by confining the melt. Record forward peak current density of 1.2 mA/μm 2 and reverse interband tunnel current density of 3.8 mA/μm 2 is achieved at a peak temperature of approximately 600°C.

Alan Seabaugh | Thomas H. Kosel | Jialin Zhao

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