Electron field emission calculations on atomic-size microtips are presented. Models inorporating the atomic size and the particular geometrical shape of the tip are proposed. Theoretical analysis explain the remarkable properties observed experimentally : strong electron beam focusing and anomalous I-V characteristics. We present a first series of experiments and quantum mechanical calculations that suggest the possibility of atomic resolution in Electron Field Emission
Ultra-sharp field emitters are able to produce low energy electron beams. This paper presents recent...
The interaction of the charged particles in a vacuum gap has essentially remained an area that is wo...
Electron field emission from nanomaterials and nanostructures has remained an area of considerable i...
Abstract. The development of microtips with controlled geometry at the atomic level has led to the r...
We describe a new type of scanning electron microscope which works by directly imaging the electron ...
We describe a new type of scanning electron microscope which works by directly imaging the electron ...
We describe a type of scanning electron microscope that works by directly imaging the electron field...
We describe a type of scanning electron microscope that works by directly imaging the electron field...
Field emission is a phenomenon described by quantum mechanics. Its emission capability is millions t...
Summary: Progress in field emission theory from its original Fowler–Nordheim (FN) form is focused o...
Because of the rapid development of microfabricating and micromachining semiconductor devices, the n...
ron b pplica ontam high any a the s erform elec 925 A t rece he So structures. These SATs are therm...
An expression for the reduced width of an auto-ionizing level was derived using the R-matrix theory....
Ultra-sharp field emitters are able to produce low energy electron beams. This paper presents recent...
Ultra-sharp field emitters are able to produce low energy electron beams. This paper presents recent...
Ultra-sharp field emitters are able to produce low energy electron beams. This paper presents recent...
The interaction of the charged particles in a vacuum gap has essentially remained an area that is wo...
Electron field emission from nanomaterials and nanostructures has remained an area of considerable i...
Abstract. The development of microtips with controlled geometry at the atomic level has led to the r...
We describe a new type of scanning electron microscope which works by directly imaging the electron ...
We describe a new type of scanning electron microscope which works by directly imaging the electron ...
We describe a type of scanning electron microscope that works by directly imaging the electron field...
We describe a type of scanning electron microscope that works by directly imaging the electron field...
Field emission is a phenomenon described by quantum mechanics. Its emission capability is millions t...
Summary: Progress in field emission theory from its original Fowler–Nordheim (FN) form is focused o...
Because of the rapid development of microfabricating and micromachining semiconductor devices, the n...
ron b pplica ontam high any a the s erform elec 925 A t rece he So structures. These SATs are therm...
An expression for the reduced width of an auto-ionizing level was derived using the R-matrix theory....
Ultra-sharp field emitters are able to produce low energy electron beams. This paper presents recent...
Ultra-sharp field emitters are able to produce low energy electron beams. This paper presents recent...
Ultra-sharp field emitters are able to produce low energy electron beams. This paper presents recent...
The interaction of the charged particles in a vacuum gap has essentially remained an area that is wo...
Electron field emission from nanomaterials and nanostructures has remained an area of considerable i...
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