Add to ORKGThis paper focuses on one small but significant part of a long-term project that aims to improve the interpretation of measured field electron emission (FE) current-voltage [I_m(V_m)] data, and (later) the formulation of FE theory. A new form of FE I_m(V_m) data-analysis plot - the so-called "Murphy-Good (MG) plot" - has recently been introduced, within the general framework of the prevailing "smooth planar metal-like emitter" methodology. This new plot form, and the reasons for its introduction, are discussed. It is shown that the MG plot can perform all the functions that the traditional (90-year old) Fowler-Nordheim plot does, but in addition yields relatively precise results for the characterization parameter formal emission area. It ca...
This poster is part of a continuing attempt to make field emission theory more transparent. When int...
This paper discusses alternative physical explanations of experimental field emission current-voltag...
Field electron emission (FE) has relevance in many technological contexts. However, many technologic...
Measured field electron emission (FE) current-voltage Im(Vm) data are traditionally analysed via Fow...
In field electron emission (FE) studies, it is important to check and analyse the quality and validi...
In field electron emission (FE) studies, to interpret current-voltage data and extract characterizat...
In field electron emission (FE) studies, interpretation of measured current–voltage characteristics ...
In field electron emission (FE) studies, it is important to check and analyse the quality and valid...
The commonest method of characterizing a cold field electron emitter is to measure its current-volta...
For field electron emission (FE), an empirical equation for measured current I m as a function of me...
This paper presents a new methodology for making comparisons between the theory of field electron em...
An important parameter used to characterize large-area field electron emitters (LAFEs) is the charac...
Field emission data are often represented on a Fowler--Nordheim plot but a new empirical equation ha...
A serious barrier impedes the comparison between the theoretical prediction and the experimental obs...
In electron field emission experiments, a linear relationship in plots of slope vs. intercept obtain...
This poster is part of a continuing attempt to make field emission theory more transparent. When int...
This paper discusses alternative physical explanations of experimental field emission current-voltag...
Field electron emission (FE) has relevance in many technological contexts. However, many technologic...
Measured field electron emission (FE) current-voltage Im(Vm) data are traditionally analysed via Fow...
In field electron emission (FE) studies, it is important to check and analyse the quality and validi...
In field electron emission (FE) studies, to interpret current-voltage data and extract characterizat...
In field electron emission (FE) studies, interpretation of measured current–voltage characteristics ...
In field electron emission (FE) studies, it is important to check and analyse the quality and valid...
The commonest method of characterizing a cold field electron emitter is to measure its current-volta...
For field electron emission (FE), an empirical equation for measured current I m as a function of me...
This paper presents a new methodology for making comparisons between the theory of field electron em...
An important parameter used to characterize large-area field electron emitters (LAFEs) is the charac...
Field emission data are often represented on a Fowler--Nordheim plot but a new empirical equation ha...
A serious barrier impedes the comparison between the theoretical prediction and the experimental obs...
In electron field emission experiments, a linear relationship in plots of slope vs. intercept obtain...
This poster is part of a continuing attempt to make field emission theory more transparent. When int...
This paper discusses alternative physical explanations of experimental field emission current-voltag...
Field electron emission (FE) has relevance in many technological contexts. However, many technologic...