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Vibrationally induced flip motion of a hydroxyl dimer on Cu(110)

Recent low-temperature scanning-tunneling microscopy experiments [T. Kumagai et al., Phys. Rev. B 79, 035423 (2009)] observed the vibrationally induced flip motion of a hydroxyl dimer (OD)2 on Cu(110). We propose a model to describe two-level fluctuations and current-voltage characteristics of nanoscale systems which undergo vibrationally induced switching. The parameters of the model are based on comprehensive density-functional calculations of the system's vibrational properties. For the dimer (OD)2 the calculated population of the high and low conductance states, the I-V, dI/dV, and d2I/dV2 curves are in good agreement with the experimental results and underlines the different roles played by the free and shared OD stretch modes of the dimer.

preprint2011arXivOpen access
Yasuhiro OotsukaThomas FrederiksenHiromu UebaMagnus Paulsson
cond-mat.mes-hall
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Yasuhiro OotsukaThomas FrederiksenHiromu UebaMagnus Paulsson

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