A microscopic tight-binding cluster model is used to calculate the field-induced adsorption of He on tungsten. Likewise field evaporation of tungsten ions is computed as a function of electric field strength. The importance of local field effects - here taken from self-consistent jellium calculations - is emphasized
An electric field of the order of volts per Angström applied to the emitter-tip in a field-ion micro...
We present a tight-binding cluster calculation including interatomic Coulomb repulsion for field-ind...
The relaxation of the field ionisation rate after depletion of a tungsten surface is studied for hyd...
A microscopic tight-binding cluster model is used to calculate the field-induced adsorption of He on...
A first principles theory is formulated to calculate the dispersion (van der Waals) and polarization...
The field sensitivity and the temperature dependence of the field evaporation of tungsten ions were ...
In this review we present a detailed study, both experimental and theoretical, of the field desorpti...
The desorption of cesium and barium atoms from a quasi-spherical nanostructured surface of a field e...
The effect of an electric field on the interaction of He and Ne with W tips in an FIM is investigate...
In this review we present adetailed study, both experimental nd theoretical, of the field desorption...
Under the application of a strong electric field, atoms from a metal surface can rupture their bonds...
This work develops a theoretical model of field evaporation by constructing potential energy curves ...
Coordinated Science Laboratory was formerly known as Control Systems LaboratoryAir Force Office of S...
Adiabatic potential energy curves have been calculated as a function of electric field strength for ...
To examine the effect of a high external electrostatic field on the strength of atomic binding at me...
An electric field of the order of volts per Angström applied to the emitter-tip in a field-ion micro...
We present a tight-binding cluster calculation including interatomic Coulomb repulsion for field-ind...
The relaxation of the field ionisation rate after depletion of a tungsten surface is studied for hyd...
A microscopic tight-binding cluster model is used to calculate the field-induced adsorption of He on...
A first principles theory is formulated to calculate the dispersion (van der Waals) and polarization...
The field sensitivity and the temperature dependence of the field evaporation of tungsten ions were ...
In this review we present a detailed study, both experimental and theoretical, of the field desorpti...
The desorption of cesium and barium atoms from a quasi-spherical nanostructured surface of a field e...
The effect of an electric field on the interaction of He and Ne with W tips in an FIM is investigate...
In this review we present adetailed study, both experimental nd theoretical, of the field desorption...
Under the application of a strong electric field, atoms from a metal surface can rupture their bonds...
This work develops a theoretical model of field evaporation by constructing potential energy curves ...
Coordinated Science Laboratory was formerly known as Control Systems LaboratoryAir Force Office of S...
Adiabatic potential energy curves have been calculated as a function of electric field strength for ...
To examine the effect of a high external electrostatic field on the strength of atomic binding at me...
An electric field of the order of volts per Angström applied to the emitter-tip in a field-ion micro...
We present a tight-binding cluster calculation including interatomic Coulomb repulsion for field-ind...
The relaxation of the field ionisation rate after depletion of a tungsten surface is studied for hyd...
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