Publikation: Optical near-fields & nearfield optics
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2014
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Meixner, Alfred J.
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Beilstein Journal of Nanotechnology. 2014, 5, pp. 186-187. eISSN 2190-4286. Available under: doi: 10.3762/bjnano.5.19
Zusammenfassung
Optical methods provide exceedingly powerful tools in science and technology for measuring, analyzing and manipulating, from optical microscopy and spectroscopy to the characterization of ultrafast processes by femtosecond pulses and the modification of materials by intense laser radiation. However, when it comes to applications in the nanometer-regime, the conventional optical techniques suffer from the resolution limit – formulated by Ernst Abbe one and a half centuries ago – that light cannot be focused to a diameter much less than half its wavelength. This seems like a serious drawback for the use of optics in nanoscience and nanotechnology, since many of the nanostructures of interest are distinctly smaller than this limit of a few hundred nanometers. Fortunately, this restriction can be overcome, if one does not rely on focusing with lenses and mirrors in the optical far-field, but rather exploits the optical near-field in the vicinity of nanostructures. In this Thematic Series, various examples for the use of optical near-fields and near-field optics are presented.
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MEIXNER, Alfred J., Paul LEIDERER, 2014. Optical near-fields & nearfield optics. In: Beilstein Journal of Nanotechnology. 2014, 5, pp. 186-187. eISSN 2190-4286. Available under: doi: 10.3762/bjnano.5.19BibTex
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title={Optical near-fields & nearfield optics},
volume={5},
journal={Beilstein Journal of Nanotechnology},
pages={186--187},
author={Meixner, Alfred J. and Leiderer, Paul}
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<dcterms:abstract xml:lang="eng">Optical methods provide exceedingly powerful tools in science and technology for measuring, analyzing and manipulating, from optical microscopy and spectroscopy to the characterization of ultrafast processes by femtosecond pulses and the modification of materials by intense laser radiation. However, when it comes to applications in the nanometer-regime, the conventional optical techniques suffer from the resolution limit – formulated by Ernst Abbe one and a half centuries ago – that light cannot be focused to a diameter much less than half its wavelength. This seems like a serious drawback for the use of optics in nanoscience and nanotechnology, since many of the nanostructures of interest are distinctly smaller than this limit of a few hundred nanometers. Fortunately, this restriction can be overcome, if one does not rely on focusing with lenses and mirrors in the optical far-field, but rather exploits the optical near-field in the vicinity of nanostructures. In this Thematic Series, various examples for the use of optical near-fields and near-field optics are presented.</dcterms:abstract>
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