Low-temperature charge transport in Ga-acceptor nanowires implanted by focused-ion beams

Authors

S. J. Robinson
C. L. Perkins
T. C. Shen, Utah State UniversityFollow
J. R. Tucker
T. Schenkel
X. W. Wang
T. P. Ma

Document Type

Article

Journal/Book Title/Conference

Applied Physics Letters

Issue

91

Publication Date

2007

Abstract

Ga-acceptor nanowires were embedded in crystalline Si using focused-ion beams. The dc current-voltage characteristics of these wires after annealing are highly nonlinear at low temperatures. A conductance threshold of less than 50 mV is observed independent of Ga+ dosage and implant beam overlap. These features suggest a Coulomb blockade transport mechanism presumably caused by a network of Ga precipitates in the substrate. This granular scenario is further supported by measurements of gated nanowires. Nanowires with metallic conductance at low temperatures could be achieved by reducing the current density of the focused-ion beams.

Recommended Citation

S. J. Robinson, C. L. Perkins, T.-C. Shen, J. R. Tucker, T. Schenkel, X. W. Wang and T. P. Ma, “Low-temperature charge transport in Ga-acceptor nanowires implanted by focused-ion beams”, Appl. Phys. Lett. 91, 122105 (2007).

https://doi.org/10.1063/1.2786014