V. A. Vdovin, V. G. Andreev, P. S. Glazunov, I. A. Khorin, Yu. V. Pinaev, “Optical coefficients of nanometer thickness copper films in frequency range 9–11 GHz”, Optics and Spectroscopy, 2019, Volume 127, Issue 5,Pages <nobr>834

This article is cited in 3 papers

Optics of low-dimensional structures, mesostructures, and metamaterials

Optical coefficients of nanometer thickness copper films in frequency range 9–11 GHz

V. A. Vdovin^a, V. G. Andreev^b, P. S. Glazunov^b, I. A. Khorin^c, Yu. V. Pinaev^a

^a Kotel’nikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences, 125009, Moscow, Russia
^b Moscow State University, 119991, Moscow, Russia
^c Valiev Institute of Physics and Technology, Russian Academy of Sciences, 117218, Moscow, Russia

Abstract: The reflection, transmission, and absorption coefficients of ultrathin copper films on a quartz substrate in a waveguide at frequencies of 9–11 GHz were measured. Films less than 5 nm thick are almost completely oxidized and transparent to microwave radiation. A conductive layer is formed when the film thickness exceeds 5 nm, however, the reflection coefficient increases with a thickness in the range of 5–15 nm more slowly than it follows from calculations utilized the model conductivity of a continuous film. The results can be explained by the morphology of the films.

Keywords: complex dielectric constant, effective medium, microwave frequency range.

Received: 05.04.2019
Revised: 05.04.2019
Accepted: 30.04.2019

DOI: 10.21883/OS.2019.11.48524.132-19