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2018

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vol. 16 / 

Issue 1

 



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M. Yu. Barabash, R. V. Litvin, D. S. Leonov, A. A. Kolesnichenko, V. E. Martynchuk, and L. V. Ryabov
«Holographic Interferometry as a Method of Determination of Quality of Nanostructured Coatings»
153–166 (2018)

PACS numbers: 07.60.Ly, 42.30.Ms, 42.40.Ht, 42.40.Kw, 42.40.My, 42.70.Ln

Available optical methods for non-destructive quality control of materials and nanostructured coatings are considered. As shown, the holographic interferometry methods provide high accuracy of measurements, simplicity of the data interpretation and possibility of use for the control of a wide range of materials. Technique of the holographic and interferometric patterns digital recording followed by computer processing of results and obtaining an object phase portrait is presented. The physical nature of holograms and the principles of their application for improving the mechanical properties of materials and coatings are described.

Keywords: holographic interferometry, phase portrait, nanostructured coatings

https://doi.org/10.15407/nnn.16.01.153

References
1. M. Yu. Barabash, D. O. Grynko, and S. O. Sperkach, Formuvannya Nanostruktur na Templatax Vyprominyuvannyam iz Vydymogo Diapazonu (Kyyiv: IMF NANU: 2015) (in Ukrainian).
2. N. P. Alyoshin, V. V. Murashov, A. G. Evgenov, M. V. Grigor'ev, N. A. Shchipakov, S. A. Vasilenko, and I. S. Krasnov, Defektoskopiya, 1: 48 (2016) (in Russian).
3. Nerazrushayushchiy Kontrol' i Diagnostika: Spravochnik (Ed. V. V. Klyuev) (Moscow: Mashinostroenie: 1995) (in Russian).
4. G. G. Vlaykov, M. Yu. Barabash, I. V. Belousov et al., Golograficheskaya i Spekl Interferometriya (Kiev: IMF NANU: 2009) (in Russian).
5. G. G. Vlaykov, M. Yu. Barabash, M. A. Zabolotnyi et al., Formuvannya Nanostruktur Templatnym Syntezom (Kyyiv: IMF NANU: 2010) (in Ukrainian).
6. E. L. Aleksandrova, Fizika i Tekhnika Poluprovodnikov, 38, No. 10: 1153 (2004) (in Russian).
7. I. A. Akimov, Yu. A. Cherkasov, and M. I. Cherkashin, Sensibilizirovannyi Fotoeffekt [Sensibilized Photoeffect] (Moscow: Nauka: 1980) (in Russian).
8. B. B. Gorbatenko, A. A. Grebenyuk, L. A. Maksimova, O. A. Perepelitsyna, and V. P. Ryabukho, Komp'yuternaya Optika, 34, No. 1: 69 (2010) (in Russian).
9. V. S. Myl'nikov, Fotoprovodimost' Polimerov [Photoconduction of Polymers] (Leningrad: Nauka: 1990) (in Russian).
10. Ch. M. Vest, Golograficheskaya Interferometriya [Holographic Interferometry] (Moscow: Mir: 1982) (Russian translation).
11. M. A. Sutton, J.-J. Orteu, and H. Schreier, Image Correlation for Shape, Motion and Deformation Measurements (Columbia, SC, USA: University of South Carolina: 2009).
12. R. Jones and C. Wykes, Golograficheskaya i Spekl-Interferometriya [Holographic and Speckle Interferometry] (Ed. G. V. Skrotskii) (Moscow: Mir: 1986) (Russian translation).
13. B. B. Gorbatenko, L. A. Maksimova, and V. P. Ryabukho, Optics and Spectroscopy, 106, No. 2: 281 (2009). https://doi.org/10.1134/S0030400X09020210
14. L. M. Lobanov, V. A. Pivtorak, V. V. Savitskii, and E. M. Oleynik, Avtomaticheskaya Svarka, 10: 8 (2002) (in Russian).
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