An infrared dielectric function model for amorphous solids

1 January 1992

journal article
Published by AIP Publishing in Journal of Applied Physics

Vol. 71 (1) , 1-6
https://doi.org/10.1063/1.350737

Abstract

For the modeling of infrared spectra it is a common approach to use a dielectric function that treats the vibrational modes as damped harmonic oscillators. This model was found to be rather crude for some applications to amorphous solids. A dielectric functionmodel yielding a Gaussian shape of the absorption lines and satisfying Kramers–Kronig relations is suggested. The model function is constructed by a convolution of a Gaussian function with the dielectric function of the damped harmonic oscillatormodel. An analytical solution of this integral is given. It is demonstrated that this model describes the spectra of thermally grown ultrathin (1.3 nm) silicon oxide films, plasma‐deposited silicon films, plasma‐deposited silicon nitride films, and amorphous aluminum oxide films very well. The physical motivation of the dielectric functionmodel suggested is the randomness of the vibrational frequencies in an amorphous structure.

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