Parametric presentation of dielectric function of laser pumped wide-zone semiconductor material: Does this function satisfy the Kramers-Kronig relations?

D. A. Zimnyakov; S. A. Yuvchenko; S. S. Volchkov; T. V. Samorodina

doi:10.1117/12.2311476

26 April 2018 Parametric presentation of dielectric function of laser pumped wide-zone semiconductor material: Does this function satisfy the Kramers-Kronig relations?

D. A. Zimnyakov, S. A. Yuvchenko, S. S. Volchkov, T. V. Samorodina

Author Affiliations +

Proceedings Volume 10717, Saratov Fall Meeting 2017: Laser Physics and Photonics XVIII; and Computational Biophysics and Analysis of Biomedical Data IV; 107171E (2018) https://doi.org/10.1117/12.2311476
Event: Saratov Fall Meeting 2017, 2017, Saratov, Russian Federation

Abstract

Dielectric function of wide-zone semiconductor nanoparticles (titanium dioxide) was studied under the condition of laser pumping at various wavelengths. A closed-aperture z-scan method with simultaneous measurements of the right-anglescattered intensity was used to retrieve the real and imaginary parts of dielectric function in the dependence on the pump intensity. It was found that the efficiency of dielectric function modulation by pumping light strongly depends on detuning of the wavelength of pumping light with respect to the fundamental absorption band of nanoparticles. The ColeCole diagrammatic technique was applied for interpretation of the pump-induced changes of the dielectric function in the optical range. Applicability of the Kramers-Kronig relations for description of the observed behavior of the dielectric function is discussed.

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D. A. Zimnyakov, S. A. Yuvchenko, S. S. Volchkov, and T. V. Samorodina "Parametric presentation of dielectric function of laser pumped wide-zone semiconductor material: Does this function satisfy the Kramers-Kronig relations?", Proc. SPIE 10717, Saratov Fall Meeting 2017: Laser Physics and Photonics XVIII; and Computational Biophysics and Analysis of Biomedical Data IV, 107171E (26 April 2018); https://doi.org/10.1117/12.2311476

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KEYWORDS

Absorption

Nanoparticles

Dielectrics

Scattering

Light scattering

Particles

Optical pumping

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