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T. Herr et al.
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Jacob S. Levy et al.
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Bart Kuyken et al.
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D. T. H. Tan et al.
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Jacob S. Levy et al.
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Sara Mas et al.
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David Duchesne et al.
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Lin Zhang et al.
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Michael R. E. Lamont et al.
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C. A. Barrios et al.
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Versatile chromatic dispersion measurement of a single mode fiber using spectral white light interferometry
J. Y. Lee et al.
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Mark A. Foster et al.
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Amy C. Turner et al.
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Group index and group velocity dispersion in silicon-on-insulator photonic wires
E Dulkeith et al.
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HS Rong et al.
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Fabrication and optical characterization of thin two-dimensional Si3N4 waveguides
N Daldosso et al.
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VR Almeida et al.
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KP Hansen
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K Saitoh et al.
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WH Reeves et al.
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A Ferrando et al.
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