Coulomb-blockade transport in selectively-doped Si nano-transistors

Coulomb-blockade transport in selectively-doped Si nano-transistors

Coulomb-blockade transport via donors working as quantum dots (QDs) in Si nano-transistor channels opens new pathways for atomic-level applications, but position-control of such QDs remains challenging. Here, we demonstrate that multiple-donor cluster-QDs can be formed by CMOS-compatible selective-d...

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Veröffentlicht in:Applied physics express 2019-08, Vol.12 (8), p.85004
Hauptverfasser: Afiff, Adnan, Samanta, Arup, Udhiarto, Arief, Sudibyo, Harry, Hori, Masahiro, Ono, Yukinori, Tabe, Michiharu, Moraru, Daniel
Format: Artikel
Sprache:eng
Schlagworte:
Coulomb blockade
multiple-donor cluster
selectively-doped SOI-FET
Si nano-transistor
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Zusammenfassung:Coulomb-blockade transport via donors working as quantum dots (QDs) in Si nano-transistor channels opens new pathways for atomic-level applications, but position-control of such QDs remains challenging. Here, we demonstrate that multiple-donor cluster-QDs can be formed by CMOS-compatible selective-doping, as observed from Coulomb-blockade transport at low temperature (T = 5.5 K). While at high gate voltage electron tunneling takes place via extended QDs, likely due to line edge roughness of the nanoscale channel, at low gate voltage tunneling occurs via a cluster of intentionally-doped donors. For the interpretation, we introduce a model of an isolated donor-cluster as a QD with voltage-dependent tunnel resistances.
ISSN:1882-0778
1882-0786
DOI:10.7567/1882-0786/ab2cd7