Stability of conductance oscillations in monatomic sodium wires

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Khomyakov, Petr A. and Brocks, Geert (2006) Stability of conductance oscillations in monatomic sodium wires. Physical Review B: Condensed matter and materials physics, 74 (16). p. 165416. ISSN 1098-0121

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Abstract:We study the stability of conductance oscillations in monatomic sodium wires with respect to structural variations. The geometry, the electronic structure, and the electronic potential of sodium wires suspended between two sodium electrodes are obtained from self-consistent density functional theory calculations. The conductance is calculated within the framework of the Landauer-Bütttiker formalism, using the mode-matching technique as formulated recently in a real-space finite-difference scheme [Phys. Rev. B 70, 195402 (2004)]. We find a regular even-odd conductance oscillation as a function of the wire length, where wires comprising an odd number of atoms have a conductance close to the quantum unit G0=e2∕πℏ, and even-numbered wires have a lower conductance. The conductance of odd-numbered wires is stable with respect to geometry changes in the wire or in the contacts between the wire and the electrodes; the conductance of even-numbered wires is more sensitive. Geometry changes affect the spacing and widths of the wire resonances. In the case of odd-numbered wires the transmission is on-resonance, and hardly affected by the resonance shapes, whereas for even-numbered wires the transmission is off-resonance and sensitive to the resonance shapes. Predicting the amplitude of the conductance oscillation requires a first-principles calculation based upon a realistic structure of the wire and the leads. A simple tight-binding model is introduced to clarify these results.

Item Type:Article
Copyright:© 2006 The American Physical Society
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Science and Technology (TNW)
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Link to this item:http://purl.utwente.nl/publications/74269
Official URL:http://dx.doi.org/10.1103/PhysRevB.74.165416
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