Optical Constants of Silver Sulfide Tarnish Films

The optical constants of rapidly grown silver sulfide films approximately 400 A thick have been determined in the wavelength range 0.28–2.5 μ using three independent methods. A fourth method was used to obtain values of n and k for thin (40 A), naturally grown silver sulfide films on opaque silver in the wavelength range 0.34–0.60 μ. Although these results are probably not representative of bulk silver sulfide, they should be approximately correct for tarnish films on silver. Thus, they can be used to calculate the reflectance as a function of wavelength for silver covered with tarnish films of various thicknesses. The measured reflectances of two such films were in reasonable agreement with the calculations, and the reflectance of heavily tarnished silver was essentially the same as that of fresh silver in the infrared. The measured optical constants of silver sulfide can also be used to calculate the thickness of thin tarnish films from ellipsometric measurements, and to calculate the shift in the surface plasma-resonance frequency when silver is covered with a thin tarnish film.

[1]  W. Koehler Multiple-Beam Fringes of Equal Chromatic Order. Part IV. Use of Multilayer Films , 1955 .

[2]  R. H. Huebner,et al.  Optical Constants of Vacuum-Evaporated Silver Films* , 1964 .

[3]  Harold E. Bennett,et al.  Formation and Growth of Tarnish on Evaporated Silver Films , 1969 .

[4]  H. E. Bennett,et al.  Growth of surface films on silver , 1969 .

[5]  J. L. Stanford Determination of Surface-Film Thickness from Shift of Optically Excited Surface Plasma Resonance , 1970 .

[6]  W. N. Hansen,et al.  Relation of internal reflection measurements to bulk optical properties with a transmission comparison , 1967 .

[7]  J. Bennett,et al.  Computer program for determining optical constants of a film on an opaque substrate. , 1969, Applied optics.

[8]  P. Nilsson Determination of optical constants from intensity measurements at normal incidence. , 1968, Applied optics.

[9]  J. Bennett,et al.  Computational method for determining n and k for a thin film from the measured reflectance, transmittance, and film thickness. , 1966, Applied optics.

[10]  H. E. Bennett,et al.  Precision Measurement of Absolute Specular Reflectance with Minimized Systematic Errors , 1960 .

[11]  Harold E. Bennett,et al.  Validity of Ellipsometry for Determining the Average Thickness of Thin, Discontinuous, Absorbing Films* , 1969 .

[12]  Jean M. Bennett,et al.  Precise Method for Measuring the Absolute Phase Change on Reflection , 1964 .

[13]  R. Bailly Infrared light for mineral determination , 1948 .

[14]  J. Bennett,et al.  Infrared Reflectance and Emittance of Silver and Gold Evaporated in Ultrahigh Vacuum , 1965 .

[15]  H. E. Bennett,et al.  Infrared Reflectance of Evaporated Aluminum Films , 1962 .