Description

Book Synopsis
This Open Access book discusses an extension to low-coherence interferometry by dispersion-encoding. The approach is theoretically designed and implemented for applications such as surface profilometry, polymeric cross-linking estimation and the determination of thin-film layer thicknesses. During a characterization, it was shown that an axial measurement range of 79.91 µm with an axial resolution of 0.1 nm is achievable. Simultaneously, profiles of up to 1.5 mm in length were obtained in a scan-free manner. This marked a significant improvement in relation to the state-of-the-art in terms of dynamic range. Also, the axial and lateral measurement range were decoupled partially while functional parameters such as surface roughness were estimated. The characterization of the degree of polymeric cross-linking was performed as a function of the refractive index. It was acquired in a spatially-resolved manner with a resolution of 3.36 x 10-5. This was achieved by the development of a novel mathematical analysis approach.


Table of Contents
1 Introduction and motivation.- 2 Related works and basic considerations.- 3 Surface profilometry.- 4 Polymer characterization.- 5 Thin-film characterization.- 6 Conclusion.

Development and Characterization of a

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    A Paperback / softback by Christopher Taudt

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      Publisher: Springer Fachmedien Wiesbaden
      Publication Date: 17/11/2021
      ISBN13: 9783658359256, 978-3658359256
      ISBN10: 3658359250
      Also in:
      Applied optics Engineering measurement and calibration Laser technology and holography

      Description

      Book Synopsis
      This Open Access book discusses an extension to low-coherence interferometry by dispersion-encoding. The approach is theoretically designed and implemented for applications such as surface profilometry, polymeric cross-linking estimation and the determination of thin-film layer thicknesses. During a characterization, it was shown that an axial measurement range of 79.91 µm with an axial resolution of 0.1 nm is achievable. Simultaneously, profiles of up to 1.5 mm in length were obtained in a scan-free manner. This marked a significant improvement in relation to the state-of-the-art in terms of dynamic range. Also, the axial and lateral measurement range were decoupled partially while functional parameters such as surface roughness were estimated. The characterization of the degree of polymeric cross-linking was performed as a function of the refractive index. It was acquired in a spatially-resolved manner with a resolution of 3.36 x 10-5. This was achieved by the development of a novel mathematical analysis approach.


      Table of Contents
      1 Introduction and motivation.- 2 Related works and basic considerations.- 3 Surface profilometry.- 4 Polymer characterization.- 5 Thin-film characterization.- 6 Conclusion.

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