Surface conductivity induced electron field emission from an indium cluster sitting on a diamond surface

Abstract: Electron field emission has been performed from a 5 μm indium cluster sitting on a nitrogen doped diamond (100) surface (3×3×1 mm3). The motivation to study such a system arose from the fact that electron field emission from N-doped diamond was reported in literature. However, the emission mechanism is not really known and still the subject of an intense discussion in the diamond/amorphous carbon community. We have chosen this setup to conduct a model experiment with well-defined parameters. The emission prope… Show more

“…Although the threshold voltage/field was not as low as expected from theory, there have been many reports concerning electron emission from this surface [7][8][9][10][11][12][13], largely because the diamond surface is extremely chemically inert. The inertness prevents the 3 diamond surface from aging, a process often observed in field emission studies of metals [14].…”

Electron emission from conduction band of diamond with negative electron affinity

“…Although the threshold voltage/field was not as low as expected from theory, there have been many reports concerning electron emission from this surface [7][8][9][10][11][12][13], largely because the diamond surface is extremely chemically inert. The inertness prevents the 3 diamond surface from aging, a process often observed in field emission studies of metals [14].…”

Electron emission from conduction band of diamond with negative electron affinity

Carbon‐Based Quantum Cathodes

Field Evaporation and Related Topics