Título
Role of impact ionization and self-consistent tunnel injection in Schottky-barrier diodes operating under strong reverse-bias conditions
Autor(es)
Palabras clave
Schottky-barrier diode
Impact ionization
GaN
Tunnel injection
Clasificación UNESCO
Fecha de publicación
2023
Editor
The Japan Society of Applied Physics
Citación
González, Tomás, et al. «Role of impact ionization and self-consistent tunnel injection in Schottky-barrier diodes operating under strong reverse-bias conditions». Applied Physics Express, vol. 16, n.o 2, febrero de 2023, p. 024003. DOI.org (Crossref), https://doi.org/10.35848/1882-0786/acb9d4.
Resumen
[EN]This work shows that for a correct analysis of Schottky barrier diodes operating under strong reverse-bias conditions, it is necessary to account for
the self-consistency between the shape of the energy barrier and carrier concentration in the depletion region since the full-depletion
approximation fails to estimate the current. This happens for very high applied voltages, at which impact ionization by electrons and holes
must also be considered. Two example GaN diodes with different doping concentrations and barrier heights are analyzed. The results are relevant
to regions of the diodes where a very high tunnel injection takes place, like the contact edge or surface inhomogeneities.
URI
ISSN
1882-0778
DOI
10.35848/1882-0786/acb9d4
Versión del editor
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