Scanning near-field optical images of ordered polystyrene particle layers in transmission and luminescence excitation modes

Scanning near-field optical images of hexagonally close-packed layers of polystyrene spherical particles with a diameter of 1.0 microm have been investigated. The layers were composed of particles that were doped either totally or partially with an organic fluorescent dye. Observations were made in...

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Published in:Optics letters 1997-04, Vol.22 (8), p.489-491
Main Authors: Fujimura, T, Edamatsu, K, Itoh, T, Shimada, R, Imada, A, Koda, T, Chiba, N, Muramatsu, H, Ataka, T
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cited_by cdi_FETCH-LOGICAL-c354t-a75e1c917ee8da825f2ee50d0cdf68f425e8b599df0205fcf9f1682ece20fbab3
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container_end_page 491
container_issue 8
container_start_page 489
container_title Optics letters
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creator Fujimura, T
Edamatsu, K
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Shimada, R
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Koda, T
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Muramatsu, H
Ataka, T
description Scanning near-field optical images of hexagonally close-packed layers of polystyrene spherical particles with a diameter of 1.0 microm have been investigated. The layers were composed of particles that were doped either totally or partially with an organic fluorescent dye. Observations were made in the transmission and luminescence excitation modes with a scanning near-field optical microscope (SNOM) with a spatial resolution shorter than the wavelength of light. The patterns observed in the SNOM images are significantly dependent on the microstructures of layers, that is, the layers are either single or double layered, and the particles are either totally or partially doped. These results are discussed in terms of specific modes of electromagnetic waves transmitting across and along the layers after the local excitation at the tip end of the scanning microprobe.
doi_str_mv 10.1364/ol.22.000489
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title Scanning near-field optical images of ordered polystyrene particle layers in transmission and luminescence excitation modes
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