Shin-Ming Lu scite author profile

Shin-Ming Lu

3Publications

145Citation Statements Received

56Citation Statements Given

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133

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Affiliations

Institute of Physics, Academia Sinica, Tunghai University, National Taiwan University

Publications

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Manifestation of Work Function Difference in High Order Gundlach Oscillation

Lin

et al. 2007

Phys. Rev. Lett.

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Gundlach oscillation (or the standing-wave state) is a general phenomenon manifesting in the tunneling spectrum acquired from a metal surface using scanning tunneling spectroscopy. Previous studies relate the energy shift between peaks of the lowest-order Gundlach oscillation observed on the thin film and the metal substrate to the difference in their work functions. By observing Gundlach oscillations on Ag/Au(111), Ag/Cu(111), and Co/Cu(111) systems, we demonstrate that the work function difference is not the energy shift of the lowest order but the ones of higher order where a constant energy shift exhibits. Higher order Gundlach oscillations can thus be applied to determine the work function of thin metal films precisely.

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Phase Contribution of Image Potential on Empty Quantum Well States in Pb Islands on the Cu(111) Surface

Yang

Lin

et al. 2009

Phys. Rev. Lett.

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We use scanning tunneling spectroscopy to explore the quantum well states in the Pb islands grown on a Cu(111) surface. Our observation demonstrates that the empty quantum well states, whose energy levels lie beyond 1.2 eV above the Fermi level, are significantly affected by the image potential. As the quantum number increases, the energy separation between adjacent states is shrinking rather than widening, contrary to the prediction for a square potential well. By simply introducing a phase factor to reckon the effect of the image potential, the shrinking behavior of the energy separation can be reasonably explained with the phase accumulation model. The model also reveals that there exists a quantum regime above the Pb surface in which the image potential is vanished. Moreover, the quasi-image-potential state in the tunneling gap is quenched because of the existence of the quantum well states.

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Chang

et al. 2011

Phys. Rev. Lett.

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Shin-Ming Lu

Manifestation of Work Function Difference in High Order Gundlach Oscillation

Phase Contribution of Image Potential on Empty Quantum Well States in Pb Islands on the Cu(111) Surface

Suet al.Reply:

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