Search Results - "van Etteger, A F"

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    Laser manipulation of iron for nanofabrication by Myszkiewicz, G., Hohlfeld, J., Toonen, A. J., Van Etteger, A. F., Shklyarevskii, O. I., Meerts, W. L., Rasing, Th, Jurdik, E.

    Published in Applied physics letters (25-10-2004)
    “…We fabricate iron nanolines by depositing an atomic beam of iron through a far-off resonant laser standing wave (SW) onto a glass-ceramic substrate. The laser…”
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    Journal Article
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    Electric field dynamics at a metal-semiconductor interface probed by femtosecond optical second harmonic generation by de Jong, W., van Etteger, A.F., van 't Hof, C.A., van Hall, P.J., Rasing, Th

    Published in Surface science (01-07-1995)
    “…The optical second harmonic generation (SHG) from a Au GaAs(100) Schottky barrier is shown to be a direct probe of the electric field dynamics near such a…”
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    Journal Article Conference Proceeding
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    Pulsed operation of an optically pumped far-infrared molecular laser by Bluyssen, H., McIntosh, R., van Etteger, A., Wyder, P.

    Published in IEEE journal of quantum electronics (01-07-1975)
    “…An investigation of the far-infrared (FIR) response of an optically pumped molecular laser to an infrared (IR) pulse source is presented. It is shown that a…”
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    Journal Article
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    Coherent plasmon—surface phonon oscillations in a GaAs Schottky barrier sample by de Jong, W., van Etteger, A.F., van Hall, P.J., Rasing, Th

    Published in Surface science (20-04-1997)
    “…Excitation of a biased GaAsAu Schottky barrier sample by intense fs laser pulses leads to coherent oscillations that are probed by time-resolved second…”
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    Journal Article
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    Time-resolved optical second harmonic generation study of the electric field dynamics at a metal-semiconductor interface by de Jong, W., van Etteger, A.F., van't Hof, C.A., van Hall, P.J., Rasing, Th

    Published in Surface science (15-05-1996)
    “…The time evolution of the electric field at a Schottky barrier interface due to above bandgap excitation is directly measured using time-resolved optical…”
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    Journal Article
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