We present a way to analyze the chemical composition of periodical multilayer structures using the simultaneous analysis of grazing incidence hard X-Ray reflectivity (GIXR) and normal incidence extreme ultraviolet reflectance (EUVR). This allows to combine the high sensitivity of GIXR data to layer and interface thicknesses with the sensitivity of EUVR to the layer densities and atomic compositions. This method was applied to the reconstruction of the layered structure of a LaN/B multilayer mirror with 3.5 nm periodicity. We have compared profiles obtained by simultaneous EUVR and GIXR and GIXR-only data analysis, both reconstructed profiles result in a similar description of the layered structure. However, the simultaneous analysis of both...
The performance of multilayers at the X-UV wavelengths depends upon the structural and geometrical i...
Modern nanotechnology is constantly raising demands to quality and purity of thin films and interlay...
In the first part of this article we experimentally show that contrast between the very thin layers ...
We present a way to analyze the chemical composition of periodical multilayer structures using the s...
Grazing-incidence X-ray reflectivity (GIXRR) is a widely used analysis method for thin films and mul...
Obtaining a high quality physical description of the layered structure of multilayer based optical c...
The research described in this thesis concerns X-ray and Extreme UV characterization of periodic nan...
The growing complexity of multilayer mirrors (MLMs) calls for the development of accurate and non-de...
Structural analysis of periodic multilayers with small period thickness (~4 nm) is a challenging tas...
We discuss a new method to characterize multilayer structures with grazing-incidence reflectivity me...
This paper was published in Chinese Optics Letters and is made available as an electronic reprint wi...
Methods to deduce the parameters of a multilayer X-ray mirror from its reflectivity curve are review...
This thesis addresses research works on the development and metrology of multilayer thin-film coatin...
Accurate measurements of optical properties of multilayer (ML) mirrors and chemical compositions of ...
By means of modern vacuum deposition technology, structures consisting of alternating layers of high...
The performance of multilayers at the X-UV wavelengths depends upon the structural and geometrical i...
Modern nanotechnology is constantly raising demands to quality and purity of thin films and interlay...
In the first part of this article we experimentally show that contrast between the very thin layers ...
We present a way to analyze the chemical composition of periodical multilayer structures using the s...
Grazing-incidence X-ray reflectivity (GIXRR) is a widely used analysis method for thin films and mul...
Obtaining a high quality physical description of the layered structure of multilayer based optical c...
The research described in this thesis concerns X-ray and Extreme UV characterization of periodic nan...
The growing complexity of multilayer mirrors (MLMs) calls for the development of accurate and non-de...
Structural analysis of periodic multilayers with small period thickness (~4 nm) is a challenging tas...
We discuss a new method to characterize multilayer structures with grazing-incidence reflectivity me...
This paper was published in Chinese Optics Letters and is made available as an electronic reprint wi...
Methods to deduce the parameters of a multilayer X-ray mirror from its reflectivity curve are review...
This thesis addresses research works on the development and metrology of multilayer thin-film coatin...
Accurate measurements of optical properties of multilayer (ML) mirrors and chemical compositions of ...
By means of modern vacuum deposition technology, structures consisting of alternating layers of high...
The performance of multilayers at the X-UV wavelengths depends upon the structural and geometrical i...
Modern nanotechnology is constantly raising demands to quality and purity of thin films and interlay...
In the first part of this article we experimentally show that contrast between the very thin layers ...