Local inspection of refractive index and thickness of thick transparent layers using spectral reflectance measurements in low coherence scanning interferometry

For a long time, obtaining the optical and morphological properties of a transparent sample with high accuracy without degrading the layer has been challenging. To achieve these expectations, contactless techniques are used and have not only been proven well-suitable but have also brought optical me...

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Bibliographic Details
Published in:Optical materials 2018-12, Vol.86, p.100-105
Main Authors: Claveau, Rémy, Montgomery, Paul, Flury, Manuel, Ferblantier, Gérald
Format: Article
Language:English
Subjects:
Engineering Sciences
Fringe analysis
Interference microscopy
Optics
Photonic
Reflectance spectrum
Refractive index
Thickness
Transparent material
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Summary:For a long time, obtaining the optical and morphological properties of a transparent sample with high accuracy without degrading the layer has been challenging. To achieve these expectations, contactless techniques are used and have not only been proven well-suitable but have also brought optical methods to the forefront. Over recent years white light scanning interferometry has been increasingly used for studying and characterizing transparent materials with thicknesses ranging from a few hundred nanometers to several micrometers. Then, multiple techniques have been developed to retrieve the transparent layer properties from interferometric data. The more recent techniques, based on the use of an error function which defines the best fit between the experimental and theoretical data, allow the determination of the thickness of very thin films (1 μm) for simultaneously measuring their optical and morphological properties, provided that a crucial step is carefully considered during the data acquisition process. This enables the simultaneous measurements of both the thickness and the refractive index (dispersion) without any prior assumptions about one of the two parameters. We demonstrate the proposed method by accurate measurements on a few micrometers thick PMMA layer as well as on a SnO2 layer, which is a much more dispersive sample. •Very fast characterization method based on the interference signal processing.•Characterization of thick transparent layers requires a low system numerical aperture.•Simultaneous determination of the thickness and optical index of transparent layers.
ISSN:0925-3467
1873-1252
DOI:10.1016/j.optmat.2018.09.046