Atomic Motion in Single H2 and D2 Molecule Junction Induced by Phonon Excitation

Abstract

We have investigated Au atomic contacts in H2 and D2 environment by conductance measurement and dI/dV spectroscopy. A single H2 or D2 molecule was found to bridge Au electrodes. In the case of the Au/H2/Au junction, symmetric peaks were observed in dI/dV spectra, while they were not observed for the Au/D2/Au junction. The shape of the peaks in dI/dV spectra originated from the structural change of the single molecule junction induced by the phonon excitation. The structural change could occur only for the Au/H2/Au junction. The difference in the two single molecule junctions could be explained by larger zero point energy of Au-H2 vibration mode than that in the Au/H2/Au junction.