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Optical and Quantum Electronics Volume 49, No. 2, February 2017, Article 56, Pages 1-7

E. I. Ageev, Y. M. Andreeva, P. N. Brunkov, Y. Y. Karlagina, G. V. Odintsova, D. V. Pankin, S. I. Pavlov, V. V. Romanov, R. M. Yatsuk

Influence of light incident angle on reflectance spectra of metals processed by color laser marking technology

Optical and Quantum Electronics Volume 49, No. 2, February 2017, Article 56, Pages 1-7

DOI: 10.1007/s11082-016-0876-4

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A comparison of oxide films formed on the stainless steel surface during laser and furnace heating is presented. Obtained samples were examined by optical and scanning electron microscopy. In order to characterize the optical properties, reflection spectra within the wavelength range 190–900 nm were measured with a spectrophotometer equipped with the integrating sphere for incidence angles from 0˚ to 60˚. The topology of obtained oxide films was characterized by scanning probe microscopy. Due to light interference in produced films, the coloration of treated area is observed. It was found that there is no change in the characteristic appearance of reflectance spectra at different light incidence angles, but a blue-shift occurs especially for the case of laser-induced films, which results in a visible change of surface color. This effect is associated with an interference character of originating color and features of surface relief under an oxide film.