Molecular - Acclab h55.it.helsinki.fi
... electron–positron beam collisions at energies from 0.5 to 5 TeV with optimal performance at 3 TeV [5]. To achieve these energies, very high accelerating gradients over 100 MV m−1 are needed [6]. Repeated breakdowns near the surface of the accelerating structures become a key problem under these cond ...
... electron–positron beam collisions at energies from 0.5 to 5 TeV with optimal performance at 3 TeV [5]. To achieve these energies, very high accelerating gradients over 100 MV m−1 are needed [6]. Repeated breakdowns near the surface of the accelerating structures become a key problem under these cond ...
Publisher version
... composites with new prospects for rational design and the tailoring of properties. This review highlights a range of new boron and nitrogen based hydrides and illustrates how hydrogen release and uptake properties can be improved. Introduction Water is the major naturally occurring liquid compound o ...
... composites with new prospects for rational design and the tailoring of properties. This review highlights a range of new boron and nitrogen based hydrides and illustrates how hydrogen release and uptake properties can be improved. Introduction Water is the major naturally occurring liquid compound o ...
Pore-Scale Controls on Reaction
... porosity and pore structure. This, in turn, provides feedback on the fluid migration process itself. Reactions may lead to increases or decreases of the rock permeability. When the volume of solids decreases, either by an increase in the rock density or by transport of mass out of the system, the co ...
... porosity and pore structure. This, in turn, provides feedback on the fluid migration process itself. Reactions may lead to increases or decreases of the rock permeability. When the volume of solids decreases, either by an increase in the rock density or by transport of mass out of the system, the co ...
Inside The Miscibility Gap Lars Johnson Nanostructuring and Phase Transformations
... The segregated growth occurs because of the immiscibility of TiN and Si3 N4 . The understanding and control of such immiscibility are now technologically important in hard coatings, both to achieve the desired microstructure during growth, and to direct any transformations during metal cutting. Curr ...
... The segregated growth occurs because of the immiscibility of TiN and Si3 N4 . The understanding and control of such immiscibility are now technologically important in hard coatings, both to achieve the desired microstructure during growth, and to direct any transformations during metal cutting. Curr ...
Pore-Scale Controls on Reaction-Driven Fracturing - DUO
... fluid flow. Reaction-induced fracturing is particularly relevant during fl uid migration into high-grade metamorphic and slowly cooled magmatic rocks with very low initial porosity, but may also be important during reactive transport in more porous rocks where growth processes within the pore space ...
... fluid flow. Reaction-induced fracturing is particularly relevant during fl uid migration into high-grade metamorphic and slowly cooled magmatic rocks with very low initial porosity, but may also be important during reactive transport in more porous rocks where growth processes within the pore space ...
Advances in holographic replication with the Aztec structure
... a single, but stepped layer. When overcoated with a highly reflecting metal, it will display a single color characteristic of the step height. The name “Aztec” is an acronym for diazo photoresist technology, after the chemical composition of photoresist, but it also refers to the pyramidal stepped s ...
... a single, but stepped layer. When overcoated with a highly reflecting metal, it will display a single color characteristic of the step height. The name “Aztec” is an acronym for diazo photoresist technology, after the chemical composition of photoresist, but it also refers to the pyramidal stepped s ...
Thermal Transport Measurements of Individual Multiwalled Nanotubes
... (2.5 mm). Thus below room temperature where the phonon-phonon umklapp scattering is minimal, phonons have only a few scattering events between the thermal reservoirs, and the phonon transport is “nearly” ballistic. This remarkable behavior was not seen in the bulk experiments, possibly due to additi ...
... (2.5 mm). Thus below room temperature where the phonon-phonon umklapp scattering is minimal, phonons have only a few scattering events between the thermal reservoirs, and the phonon transport is “nearly” ballistic. This remarkable behavior was not seen in the bulk experiments, possibly due to additi ...
Document
... Heat, involves the transfer of energy between two objects due to a temperature difference. Heat is not a substance contained by an object, although we often talk of heat as if this were true. ...
... Heat, involves the transfer of energy between two objects due to a temperature difference. Heat is not a substance contained by an object, although we often talk of heat as if this were true. ...
