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Electron emission from a hydrogenated diamond surface

1996; American Institute of Physics; Volume: 69; Issue: 26 Linguagem: Inglês

10.1063/1.117863

1520-8842

J. Liu, V.V. Zhirnov, Wonbong Choi, G. J. Wojak, A. F. Myers, J. J. Cuomo, J. J. Hren,

Atomic and Subatomic Physics Research

Electron emission from a polycrystalline diamond coated silicon field emitter surface was studied using in situ exposure to various gas species during its operation. Significant enhancement of the electron emission was found after the emitting surface was exposed to hydrogen at pressures in the range 5×10−4 to 10−3 Torr. Introducing other gases such as Ne and He only suppressed the emission current. A continuous emission current was measured from such a hydrogen-exposed surface even after the electric field was reduced to below the initial threshold for electron emission. No similar result was found for pure silicon surface when identical conditions applied. This phenomenon was interpreted as the formation of a dynamically vacuum-stable layer by polarized hydrogen and the diamond surface. Such a surface layer may significantly lower the surface barrier and exhibit the negative electron affinity property.