2002
DOI: 10.1103/physrevlett.88.216803
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Onset of Energy Dissipation in Ballistic Atomic Wires

Abstract: Electronic transport at finite voltages in free-standing gold atomic chains of up to seven atoms in length is studied at low temperatures using a scanning tunneling microscope. The conductance vs voltage curves show that transport in these single-mode ballistic atomic wires is nondissipative up to a finite voltage threshold of the order of several mV. The onset of dissipation and resistance within the wire corresponds to the excitation of the atomic vibrations by the electrons traversing the wire and is very s… Show more

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Cited by 259 publications
(350 citation statements)
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“…Incorporation of each new atom in the chain was observed after a elongation of nearly 1.5Å and involved a sudden downward jump in bond lengths. This crude model shows that the wire of given length can only be stretched elastically over a limited distance which compares well with the 1Å in the experiments [5]. The calculated change of nanowire interatomic distance for a total elongation tip-tip distance of 0.75Å and a chain of 7 atoms was 0.03Å, instead of nearly 0.1Å as expected the perfect chain.…”
Section: Resultssupporting
confidence: 56%
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“…Incorporation of each new atom in the chain was observed after a elongation of nearly 1.5Å and involved a sudden downward jump in bond lengths. This crude model shows that the wire of given length can only be stretched elastically over a limited distance which compares well with the 1Å in the experiments [5]. The calculated change of nanowire interatomic distance for a total elongation tip-tip distance of 0.75Å and a chain of 7 atoms was 0.03Å, instead of nearly 0.1Å as expected the perfect chain.…”
Section: Resultssupporting
confidence: 56%
“…2 the frequencies deduced from the experiment of Ref. [5] (long dashed line). In order to decide the position of these points we made two assumptions.…”
Section: Resultsmentioning
confidence: 99%
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“…Inelastic effects have in the recent years been studied in a variety of nanoscale systems, e.g., single molecules on surfaces probed with the scanning tunneling microscope ͑STM͒, 2 molecules in break junctions, 3 and metallic atomic wires. 4 Theoretical descriptions of inelastic transport through small devices connected to metallic contacts include the many-body theory in the Coulomb blockade regime, 5 singleparticle first-order perturbation approaches, 6,7 i.e., Fermi's golden rule ͑FGR͒, as well as calculations to infinite order based on the self-consistent Born approximation ͑SCBA͒ combined with nonequilibrium Green's functions ͑NEGF͒. [8][9][10] Our paper is based on the SCBA, which in contrast to FGR takes the many-particle nature of the problem into account.…”
mentioning
confidence: 99%
“…Single gold atom contacts also have electron vibration interactions, and these interactive vibration energies are as small as 20 mV. 76 This vibration energy is in the energy region of acoustic phonons and corresponds to the vibration energy of the gold electrode. However, the vibration energy of SMJs is derived from molecular vibrations, and because molecular vibrations are in the energy region of optical phonons (which have higher energies than acoustic phonons), the vibration energy interacting with electrons increases.…”
Section: Single-molecule Analysis Methodsmentioning
confidence: 99%