Individual transport of electrons through a chemisorbed Au nanodot in Coulomb blockade electron shuttles

Individual transport of electrons through a chemisorbed Au nanodot in Coulomb blockade electron shuttles

The individual transport of electrons through a chemisorbed Au nanodot is observed in accordance with a nanomechanical vibration of the Au nanodot on a cantilever at 86 MHz; the experimental setup consists of a scanning tunneling microscopy probe/vacuum/chemisorbed Au nanodot/cantilever. In the tunn...

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Veröffentlicht in:Journal of applied physics 2011-01, Vol.109 (2), p.024303-024303-5
Hauptverfasser: Azuma, Yasuo, Kobayashi, Norihiro, Chorley, Simon, Prance, Jonathan, Smith, Charles G., Tanaka, Daisuke, Kanehara, Masayuki, Teranishi, Toshiharu, Majima, Yutaka
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container_end_page 024303-5
container_issue 2
container_start_page 024303
container_title Journal of applied physics
container_volume 109
creator Azuma, Yasuo
Kobayashi, Norihiro
Chorley, Simon
Prance, Jonathan
Smith, Charles G.
Tanaka, Daisuke
Kanehara, Masayuki
Teranishi, Toshiharu
Majima, Yutaka
description The individual transport of electrons through a chemisorbed Au nanodot is observed in accordance with a nanomechanical vibration of the Au nanodot on a cantilever at 86 MHz; the experimental setup consists of a scanning tunneling microscopy probe/vacuum/chemisorbed Au nanodot/cantilever. In the tunneling current-distance characteristics, a constant current of e f [where f is an eigenfrequency of the cantilever (86 MHz)] is observed as a plateau over a distance of 0.35 nm; this plateau is five times wider than that observed in the case of physisorbed Au nanodots. Coulomb blockade electron shuttle devices with chemisorbed Au nanodots are one of the candidates for current standard devices.
doi_str_mv 10.1063/1.3525833
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title Individual transport of electrons through a chemisorbed Au nanodot in Coulomb blockade electron shuttles
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