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The approach described in the present paper was applied for analysis of Fe-based amorphous and crystallized alloys. All
the analyzed specimens have Sw~1. Using classical approach to the Kramers-Kronig transform this value is insufficient
for refraction index and therefore optical conductivity determination. The present paper considers new ways of
Kramers-Kronig transform accuracy increase by use of high-order quadrature method and new approach to reflectivity
extrapolation. Using the advanced described approach a set of amorphous and crystallized alloys of Fe80TM5B15 type was
analyzed where TM is the 3d-transition metal. It is shown while adding a small amount of Ti, V or Cr the observed
plasma frequency tends to be about 3 to 4 eV higher than in case Mn, Co or Ni impurity was added.
The proposed method error of the optical constants determination estimate is not greater than 15% for refraction and
absorption indexes and 25% for conductivity even in case experimental spectral range is relatively small. Plasma
frequency of analyzed specimens was calculated. The methods of plasma frequency determination were compared.
Determination of base points by direct method allows significant accuracy increase and adequate error estimation of this
value.
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Oliana Fedosenko, Eugene Loza, Leonid V. Poperenko, "Application of Kramers-Kronig method for analysis Fe-based alloys," Proc. SPIE 6641, Plasmonics: Metallic Nanostructures and Their Optical Properties V, 66411Y (22 September 2007); https://doi.org/10.1117/12.732418