The analyses of the relation of optical and nonoptical constants applied to material of interest in quantum electronics

Abstract

The collecting, analysis and computation of data of optical and non-optical quantities of the material of interest in quantum electronics will be presented including the not so common relationships. The relationships between the optical and various non-optical quantities and the structure of the material are the topics of intensive theoretical and experimental work especially in the field of condensed matter. The transition to non-linear regions enhances the complexity. In spite of that, there are some simple relations for the zeroth and the first approximation. Dispersion relations, refractive index increments, reflection coefficient, angular dependencies and coherency of the data obtained by different measuring techniques as well as the corresponding theory will be analyzed. Some calculations for chosen materials will be presented, too. The computations of the refractive index values obtained according to Sellmeier's type relation will be also presented. These computations indicate wavelength ranges where the pulse compression is possible. Obtained results could help in selecting the appropriate material for the compression of the pulses of certain wavelengths or for resonant effects where the evaluation of the exact value or matching effects are important