Field-emission and beam collimation characteristics of single metal nanotip devices with double-gate electrodes are studied. Applying a previously developed method to fabricate all-metal double-gate nanotip arrays with a stacked on-chip extraction G$_{ext}$ and collimation G$_{col}$ gate electrodes with the large G$_{col}$ apertures, the authors produced single double-gate nanotip devices and measured their beam characteristics. Excellent beam collimation capability with minimal reduction of the emission current and the enhancements of the current density up to a factor of ∼7 was observed. The results indicate that these single nanotip devices are highly promising for electron beam applications that require extremely high brilliance and coh...
Achieving small transverse beam emittance is important for high brightness cathodes for free electro...
High brightness electron sources are of great importance for the operation of the hard X-ray free el...
Recently, sub-wavelength-pitch stacked double-gate metal nanotip arrays have been proposed to realiz...
Field-emission and beam collimation characteristics of single metal nanotip devices with double-gate...
Field-emission and beam collimation characteristics of single metal nanotip devices with double-gate...
Field-emission and beam collimation characteristics of single metal nanotip devices with double-gate...
We study field emission characteristics of an allmetal double-gate single nanotip emitter to explore...
We study field emission characteristics of an allmetal double-gate single nanotip emitter to explore...
Double-gate field-emission characteristics of metallic field-emitter-array (FEA) cathodes fabricated...
We report the fabrication and field emission properties of high-density nano-emitter arrays with on-...
The generation of collimated electron beams from metal double-gate nanotip arrays excited by near in...
The fabrication of double-gate metallic field emitter arrays with large collimation gate apertures a...
We explore the spatial coherence of double-gate single nanotip field emitters by low-energy electron...
Out-of-plane focusing is essential for electron beam collimation in gated field emission sources. Th...
We explore the spatial coherence of double-gate single nanotip field emitters by low-energy electron...
Achieving small transverse beam emittance is important for high brightness cathodes for free electro...
High brightness electron sources are of great importance for the operation of the hard X-ray free el...
Recently, sub-wavelength-pitch stacked double-gate metal nanotip arrays have been proposed to realiz...
Field-emission and beam collimation characteristics of single metal nanotip devices with double-gate...
Field-emission and beam collimation characteristics of single metal nanotip devices with double-gate...
Field-emission and beam collimation characteristics of single metal nanotip devices with double-gate...
We study field emission characteristics of an allmetal double-gate single nanotip emitter to explore...
We study field emission characteristics of an allmetal double-gate single nanotip emitter to explore...
Double-gate field-emission characteristics of metallic field-emitter-array (FEA) cathodes fabricated...
We report the fabrication and field emission properties of high-density nano-emitter arrays with on-...
The generation of collimated electron beams from metal double-gate nanotip arrays excited by near in...
The fabrication of double-gate metallic field emitter arrays with large collimation gate apertures a...
We explore the spatial coherence of double-gate single nanotip field emitters by low-energy electron...
Out-of-plane focusing is essential for electron beam collimation in gated field emission sources. Th...
We explore the spatial coherence of double-gate single nanotip field emitters by low-energy electron...
Achieving small transverse beam emittance is important for high brightness cathodes for free electro...
High brightness electron sources are of great importance for the operation of the hard X-ray free el...
Recently, sub-wavelength-pitch stacked double-gate metal nanotip arrays have been proposed to realiz...