Journal ArticleOccupation of individual electron states near the surface of a SiO2 film is controlled by reversible single-electron tunneling to or from a metallic electrostatic force microscope probe. By switching the polarity of an applied dc bias between the probe and the sample to adjust the Fermi energy of the probe with respect to states near the dielectric surface, individual electrons are repeatably manipulated in and out of the sample. The single-electron charging and discharging is detected by frequency detection electrostatic force microscopy
The authors show in this letter that single metal atoms on a Ni(111) surface can be pushed by electr...
The authors show in this letter that single metal atoms on a Ni(111) surface can be pushed by electr...
The authors show in this letter that single metal atoms on a Ni(111) surface can be pushed by electr...
Journal ArticleThe detection of single-electron tunneling events between a metallic scanning probe t...
Journal ArticleSingle-electron tunneling events between a metal probe and an insulator surface are m...
Journal ArticleSingle electron tunneling events between a specially fabricated scanning probe and a ...
Journal ArticleThe dynamic response of a voltage biased oscillating cantilever probe is investigated...
dissertationSingle electron tunneling force microscopy has been developed over the last decade as a ...
Journal ArticleMotivated by recent measurements of force detected single-electron tunneling, we pres...
Journal ArticleMigration of surface ions in lateral fields on insulator surfaces may modify the elec...
Journal ArticleMotivated by recent measurements of force detected single-electron tunneling, we pres...
It has been shown that electron transitions, as measured in a scanning tunnelling microscope, are re...
It has been shown that electron transitions, as measured in a scanning tunnelling microscope, are re...
It has been shown that electron transitions, as measured in a scanning tunnelling microscope, are re...
The authors show in this letter that single metal atoms on a Ni(111) surface can be pushed by electr...
The authors show in this letter that single metal atoms on a Ni(111) surface can be pushed by electr...
The authors show in this letter that single metal atoms on a Ni(111) surface can be pushed by electr...
The authors show in this letter that single metal atoms on a Ni(111) surface can be pushed by electr...
Journal ArticleThe detection of single-electron tunneling events between a metallic scanning probe t...
Journal ArticleSingle-electron tunneling events between a metal probe and an insulator surface are m...
Journal ArticleSingle electron tunneling events between a specially fabricated scanning probe and a ...
Journal ArticleThe dynamic response of a voltage biased oscillating cantilever probe is investigated...
dissertationSingle electron tunneling force microscopy has been developed over the last decade as a ...
Journal ArticleMotivated by recent measurements of force detected single-electron tunneling, we pres...
Journal ArticleMigration of surface ions in lateral fields on insulator surfaces may modify the elec...
Journal ArticleMotivated by recent measurements of force detected single-electron tunneling, we pres...
It has been shown that electron transitions, as measured in a scanning tunnelling microscope, are re...
It has been shown that electron transitions, as measured in a scanning tunnelling microscope, are re...
It has been shown that electron transitions, as measured in a scanning tunnelling microscope, are re...
The authors show in this letter that single metal atoms on a Ni(111) surface can be pushed by electr...
The authors show in this letter that single metal atoms on a Ni(111) surface can be pushed by electr...
The authors show in this letter that single metal atoms on a Ni(111) surface can be pushed by electr...
The authors show in this letter that single metal atoms on a Ni(111) surface can be pushed by electr...
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