Add to ORKGHighest Honors in PhysicsA retarding mesh analyzer was used to measure the electron energy spectrum field emitted from a single tip of a Diamond Field Emitter Array. The emission was dominated by adsorbed gas atoms and molecules on the surface which were both spatially and temporally unstable. As a result, the spectra taken had highly variant spectral features and there was an order of magnitude span in the emitted current. The spectrum from a clean surface roughly obeyed the thermal field emission model and was consistent with reported spectra from a nitrogen-doped, diamond-like carbon film.Dept. of Physics and AstronomyCollege of Arts and Scienc
ABSTRACT Thermionic electron emission provides a means of direct energy conversion. Some of the bene...
Here we investigate the changes in the cathodoluminescence spectra of HPHT diamonds irradiated by el...
Electron emission from the negative electron affinity (NEA) surface of hydrogen terminated, boron do...
This work examines electron field-emission characteristics of polycrystalline diamond films at eleva...
Diamond is a promising semiconductor material for novel electronic applications because of its chemi...
In this paper the measurements of current, emittance and brightness of the electron beams photoextra...
The objective of this project was to determine why diamond-based films are unusually efficient elec...
AbstractA novel electron spectrometer has been designed to study low-voltage field-induced emission ...
Thermionic electron emission forms the basis of both electron sources for a variety ...
The electron emission properties of a single-crystal nitrogen-doped diamond(001) photocathode insert...
The focus of this thesis is the study of the field electron emission (FEE) of diamond and related fi...
Thermionic electron emission forms the basis of both electron sources for a variety of applications ...
Here we investigate the changes in the cathodoluminescence spectra of HPHT diamonds irradiated by el...
Here we investigate the changes in the cathodoluminescence spectra of HPHT diamonds irradiated by el...
Here we investigate the changes in the cathodoluminescence spectra of HPHT diamonds irradiated by el...
ABSTRACT Thermionic electron emission provides a means of direct energy conversion. Some of the bene...
Here we investigate the changes in the cathodoluminescence spectra of HPHT diamonds irradiated by el...
Electron emission from the negative electron affinity (NEA) surface of hydrogen terminated, boron do...
This work examines electron field-emission characteristics of polycrystalline diamond films at eleva...
Diamond is a promising semiconductor material for novel electronic applications because of its chemi...
In this paper the measurements of current, emittance and brightness of the electron beams photoextra...
The objective of this project was to determine why diamond-based films are unusually efficient elec...
AbstractA novel electron spectrometer has been designed to study low-voltage field-induced emission ...
Thermionic electron emission forms the basis of both electron sources for a variety ...
The electron emission properties of a single-crystal nitrogen-doped diamond(001) photocathode insert...
The focus of this thesis is the study of the field electron emission (FEE) of diamond and related fi...
Thermionic electron emission forms the basis of both electron sources for a variety of applications ...
Here we investigate the changes in the cathodoluminescence spectra of HPHT diamonds irradiated by el...
Here we investigate the changes in the cathodoluminescence spectra of HPHT diamonds irradiated by el...
Here we investigate the changes in the cathodoluminescence spectra of HPHT diamonds irradiated by el...
ABSTRACT Thermionic electron emission provides a means of direct energy conversion. Some of the bene...
Here we investigate the changes in the cathodoluminescence spectra of HPHT diamonds irradiated by el...
Electron emission from the negative electron affinity (NEA) surface of hydrogen terminated, boron do...