The determination of infrared optical constants of rare earth fluorides by classical Lorentz oscillator model

Authors

Wei Tao Su, Shanghai Institute of Technical Physics Chinese Academy of Sciences
Bin Li, Shanghai Institute of Technical Physics Chinese Academy of Sciences
Ding Quan Liu, Shanghai Institute of Technical Physics Chinese Academy of Sciences
Feng Shan Zhang, Shanghai Institute of Technical Physics Chinese Academy of Sciences

Document Type

Article

Publication Date

6-7-2007

Abstract

Rare earth fluoride (REF3, RE ≤ La, Ce, Pr, Sm, Er, Yb, Y) films were deposited on Ge(1 1 1) and silicon wafers in order to determine optical constants from the near infrared up to the high frequency tail of the reststrahlen band. The FT-IR transmission spectrum and the reflection spectrum were used to examine the infrared optical properties of the fluorides. The optical constants of the films in the infrared spectrum from 2 to 20 νm were calculated using the classical Lorentz oscillator model by fitting the transmission spectrum. The reflective spectrum of the fluorides on silicon was used to demonstrate the absorption difference in this region. It is found that the extinction coefficients of rare earth fluorides films with Pnma structure (REF3, RE ≤ Y, Yb, Er) are larger than the other fluorides films with structure (REF3, RE ≤ La, Ce, Pr, Sm) from 15 to 20 νm. © 2007 IOP Publishing Ltd.

Publication Source (Journal or Book title)

Journal of Physics D: Applied Physics

First Page

3343

Last Page

3347

Recommended Citation

Su, W., Li, B., Liu, D., & Zhang, F. (2007). The determination of infrared optical constants of rare earth fluorides by classical Lorentz oscillator model. Journal of Physics D: Applied Physics, 40 (11), 3343-3347. https://doi.org/10.1088/0022-3727/40/11/013