Publikation:

The mechanism of nanostructuring upon nanosecond laser irradiation of a STM tip

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232_applph_1998.pdf
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1998

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Münzer, Hans-Joachim
Tresp, Michael
Ochmann, Michael

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Applied Physics A : Materials Science and Processing. 1998, 67(4), pp. 381-384. ISSN 0340-3793. eISSN 1432-0630. Available under: doi: 10.1007/s003390050789

Zusammenfassung

The mechanism of nanostructuring by illumination of scanning probe tips is examined. For that purpose the tip of a scanning tunneling microscope is illuminated with nanosecond and femtosecond laser pulses. The observation of a transient increase of the tunneling current on the timescale of ms is indicative of thermal expansion, which amounts to several nm for the energy density necessary for the purpose of nanostructuring. Furthermore, quantized electrical resistance can be observed upon illumination, which shows the formation of mechanical contact between tip and surface. Thus it is concluded that the appearance of nanostructures (craters or mounds) is dominated by the cohesion properties of the tip=sample combination. Finally it is shown that even a huge increase of the involved electromagnetic field, reached by the reduction of the pulse length from 10 ns to 100 fs, does not change this scenario.

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530 Physik

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ISO 690BONEBERG, Johannes, Hans-Joachim MÜNZER, Michael TRESP, Michael OCHMANN, Paul LEIDERER, 1998. The mechanism of nanostructuring upon nanosecond laser irradiation of a STM tip. In: Applied Physics A : Materials Science and Processing. 1998, 67(4), pp. 381-384. ISSN 0340-3793. eISSN 1432-0630. Available under: doi: 10.1007/s003390050789
BibTex
@article{Boneberg1998mecha-4864,
  year={1998},
  doi={10.1007/s003390050789},
  title={The mechanism of nanostructuring upon nanosecond laser irradiation of a STM tip},
  number={4},
  volume={67},
  issn={0340-3793},
  journal={Applied Physics A : Materials Science and Processing},
  pages={381--384},
  author={Boneberg, Johannes and Münzer, Hans-Joachim and Tresp, Michael and Ochmann, Michael and Leiderer, Paul}
}
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