Add to ORKGThe optical constants of the metal thin films of Rhodium have been determined, the phase angles was determined using the measured spectral reflectance R(l) by Kramers-Kronig relations. Then, the real part of the refractive index is calculated by the approach of Heavens when the film is highly absorbing, in that range the real refractive was found to be in order of the extinction coefficient k. The interference reflectance spectra at normal incidence for different thicknesses of amorphous metal films deposited by thermal evaporation have been obtained in the spectral range 400~800 nm. We propose a method for determination of the refractive index and extinction coefficients of highly absorbing films. This method is based on measurements of re...
Optical constants of thin metal films are strongly dependent on deposition conditions, growth mode, ...
A spectrophotometric strategy is presented and discussed for calculating realistically the reflectan...
Thesis (M.S.)--University of Rochester. College of Engineering and Applied Science. Institute of Opt...
The optical constants of the metal thin films of Rhodium have been determined, the phase angles was ...
An up-to-date review of methods of determining optical constants n and k of optically absorbing mate...
The transmitance values measured in IR reflection-absorption (RA) spectra can be used to determine t...
The seven participating laboratories received films of two different thicknesses of Sc2O3 and Rh. Al...
The seven participating laboratories received films of two different thicknesses of Sc2O3 and Rh. Al...
The seven participating laboratories received films of two different thicknesses of Sc2O3 and Rh. Al...
The seven participating laboratories received films of two different thicknesses of Sc2O3 and Rh. Al...
This work in concerned with the investigation of the optical constants of metal films formed by evap...
A method is proposed for the determination of the complex refractive index of non-metallic thin film...
This work presents the end result of the developmet of a method for calculation of optical constants...
We have studied the grazing-incidence differential-reflectance method for obtaining the dielectric f...
The technological importance of thin films of such materials as amorphous silicon and amorphous carb...
Optical constants of thin metal films are strongly dependent on deposition conditions, growth mode, ...
A spectrophotometric strategy is presented and discussed for calculating realistically the reflectan...
Thesis (M.S.)--University of Rochester. College of Engineering and Applied Science. Institute of Opt...
The optical constants of the metal thin films of Rhodium have been determined, the phase angles was ...
An up-to-date review of methods of determining optical constants n and k of optically absorbing mate...
The transmitance values measured in IR reflection-absorption (RA) spectra can be used to determine t...
The seven participating laboratories received films of two different thicknesses of Sc2O3 and Rh. Al...
The seven participating laboratories received films of two different thicknesses of Sc2O3 and Rh. Al...
The seven participating laboratories received films of two different thicknesses of Sc2O3 and Rh. Al...
The seven participating laboratories received films of two different thicknesses of Sc2O3 and Rh. Al...
This work in concerned with the investigation of the optical constants of metal films formed by evap...
A method is proposed for the determination of the complex refractive index of non-metallic thin film...
This work presents the end result of the developmet of a method for calculation of optical constants...
We have studied the grazing-incidence differential-reflectance method for obtaining the dielectric f...
The technological importance of thin films of such materials as amorphous silicon and amorphous carb...
Optical constants of thin metal films are strongly dependent on deposition conditions, growth mode, ...
A spectrophotometric strategy is presented and discussed for calculating realistically the reflectan...
Thesis (M.S.)--University of Rochester. College of Engineering and Applied Science. Institute of Opt...