Zobrazeno 1 - 6
of 6
pro vyhledávání: '"Nicole Mayani"'
Publikováno v:
Applied optics. 28(1)
Statistical parameters, rms roughness delta and autocovariance length sigma, are determined both for rough surfaces of CaF(2) deposits and for surfaces of silver films deposited on these CaF(2) underlayers. The dependence of delta and sigma on the Ca
Publikováno v:
Journal of the Optical Society of America A. 7:191
Independent measurements of the rms roughness and the reflectance have been made on silver films deposited on CaF2, LiF, and MgF2 thin films of various degrees of roughness. These measurements show a linear relationship between the dip in the magnitu
Publikováno v:
Surface Science. 188:107-122
The results of a systematic study of the roughness of LiF deposits and of Ag upon these LiF underlayers are provided. The rms roughness σ and the autocovariance length σ of various LiF and Ag/LiF films are determined. The dependence of δ and σ on
Autor:
Jacqueline Palmari, Christophe Dussert, G. Rasigni, A. Llebaria, Nicole Mayani, Francoise Varnier, Monique Rasigni
Publikováno v:
SPIE Proceedings.
For many years we have developed a method to reconstruct the profiles of statistically rough surfaces. This method is based on a microdensitometer analysis of electron micrographs of shadowed surface replicas. From the quantized profiles it is possib
Autor:
G. Rasigni, Christophe Dussert, Monique Rasigni, Jacqueline Palmari, Nicole Mayani, Francoise Varnier
Publikováno v:
SPIE Proceedings.
A rough surface may be described by its statistical moments. The second order one, which is called the autocovariance function, is significant in that it makes it possible to describe a rough surface by means of two parameters, namely the root-mean-s
Publikováno v:
Annual Meeting Optical Society of America.
The surface structure characterization our team has developed for several years (based on microdensitometer analysis of shadowed surface replicas) makes it possible to determine the statistical parameters which describe any microrough surface. In par