Multilayered Extreme UV mirrors present unprecedented fundamental questions to solid state diffusion, requiring understanding of diffusion phenomena on lengthscales of only picometers. Using x-ray diffraction applied in situ during thermal annealing, we have investigated diffusion processes well below the Tammann temperature. Resolving picometer structural changes in Mo/Si multilayers reveals diffusion limited compound interface growth, exhibiting Arrhenius-like diffusion behaviour with a reduced activation energy connected to diffusion in the nano-crystalline layers and interfaces. These results are relevant for controlling diffusion processes on a picometer length scale, with potential spin-off to many other thin film applications
B4C diffusion barrier layers are often introduced into Mo/Si multilayered films for enhancement of t...
Atomic diffusion at nanometer length scale may differ significantly from bulk diffusion, and may som...
B4C barrier layers are added to Mo/Si multilayer structures for EUV optics to enhance thermal stabil...
We present a low temperature diffusion study on the formation of intermixing zones between periodic,...
Multilayered thin film structures are widely applied as reflective coatings for optical elements in ...
The internal structure of Mo/Si multilayers is investigated during and after thermal annealing. Mult...
We present a low temperature diffusion study on the formation of intermixing zones between periodic,...
This thesis addresses the physical and chemical phenomena in Mo/Si multilayer structures with and wi...
To optimize the growth process of Mo/Si multilayers, the effect of an elevated substrate temperature...
In situ small-angle X-ray reflection and wide angle X-ray diffraction of synthetic, Mo-Si based mult...
Nanoscale multilayered structures are employed as reflective coatings for short wavelengths in a wid...
The effect of an amorphous to nanocrystalline phase transition on the diffusion across an interface ...
The effect of an amorphous-to-nanocrystalline phase transition on the diffusion across an interface ...
B4C diffusion barrier layers are often introduced into Mo/Si multilayered films for enhancement of t...
Chemical diffusion and interlayer formation in thin layers and at interfaces is of increasing influe...
B4C diffusion barrier layers are often introduced into Mo/Si multilayered films for enhancement of t...
Atomic diffusion at nanometer length scale may differ significantly from bulk diffusion, and may som...
B4C barrier layers are added to Mo/Si multilayer structures for EUV optics to enhance thermal stabil...
We present a low temperature diffusion study on the formation of intermixing zones between periodic,...
Multilayered thin film structures are widely applied as reflective coatings for optical elements in ...
The internal structure of Mo/Si multilayers is investigated during and after thermal annealing. Mult...
We present a low temperature diffusion study on the formation of intermixing zones between periodic,...
This thesis addresses the physical and chemical phenomena in Mo/Si multilayer structures with and wi...
To optimize the growth process of Mo/Si multilayers, the effect of an elevated substrate temperature...
In situ small-angle X-ray reflection and wide angle X-ray diffraction of synthetic, Mo-Si based mult...
Nanoscale multilayered structures are employed as reflective coatings for short wavelengths in a wid...
The effect of an amorphous to nanocrystalline phase transition on the diffusion across an interface ...
The effect of an amorphous-to-nanocrystalline phase transition on the diffusion across an interface ...
B4C diffusion barrier layers are often introduced into Mo/Si multilayered films for enhancement of t...
Chemical diffusion and interlayer formation in thin layers and at interfaces is of increasing influe...
B4C diffusion barrier layers are often introduced into Mo/Si multilayered films for enhancement of t...
Atomic diffusion at nanometer length scale may differ significantly from bulk diffusion, and may som...
B4C barrier layers are added to Mo/Si multilayer structures for EUV optics to enhance thermal stabil...
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