Title :
Chiral Tunneling-Assisted Over-Barrier Electron Emission From Graphene
Author :
Shi-Jun Liang ; Lay Kee Ang
Author_Institution :
Pillar of Eng. Product Dev., Singapore Univ. of Technol. & Design, Singapore, Singapore
Abstract :
A model is constructed to describe the electron emission from a vertically aligned monolayer graphene with a biased dc field. The graphene is excited by having an internal time-oscillating electric field. Our model has included all electrons from the central and sidebands. Due to the excitation, our calculations show that the electron emission is mostly due to the over-barrier electrons emission process, which is not sensitive to the surface potential barrier at the edge. By using a very small varying field of a few meV, a fairly large current line density in the order of nA/nm can be obtained. This paper should be useful for the development of laser-excited graphene-based photocathode.
Keywords :
electron emission; graphene; monolayers; surface potential; C; biased dc field; central electrons; chiral tunneling-assistance; current line density; excitation; internal time oscillating electric field; laser-excited graphene-based photocathode development; nA-nm order; over-barrier electron emission; sideband electrons; surface potential barrier; vertically aligned monolayer graphene; Amplitude modulation; Electric potential; Electron emission; Frequency modulation; Graphene; Mathematical model; Tunneling; Chiral tunneling; graphene; over-barrier emission; time-dependent barrier; time-dependent barrier.;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2014.2300144
