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Stabilities in field electron emissions from noble‐metal covered W nano‐tips: apex structure dependence
Authors:T. Itagaki  E. Rokuta  H.‐S. Kuo  K. Nomura  T. Ishikawa  B.‐L. Cho  I.‐S. Hwang  T. T. Tsong  C. Oshima
Affiliation:1. Laboratory for Material and Science Technology, Waseda University, 2‐8‐26 Nishiwaseda, Shinjuku, Tokyo 169‐0051, JapanLaboratory for Material and Science Technology, Waseda University, 2‐8‐26 Nishiwaseda, Shinjuku, Tokyo 169‐0051, Japan.;2. Laboratory for Material and Science Technology, Waseda University, 2‐8‐26 Nishiwaseda, Shinjuku, Tokyo 169‐0051, Japan;3. Institute of Physics, Academia Sinica, Nankang, Taipei, Taiwan 11529, R.O.C, China
Abstract:We observed field emission microscopy (FEM) patterns of noble‐metal (NM) covered W nano‐tips with three different apex structures fabricated by field evaporation. Each of the three tips was terminated with a single atom, three atoms or ten atoms. We investigated the temporal changes in the FEM of these tips to discuss the stabilities in the spatial distributions of the field emission (FE) beams. The single‐atom tip showed two characteristics that were superior to the others. First, the beams emitted from the single‐atom tip were the most collimated among the three tips (the semi‐cone angle of 1.0° , FWHM). Second, adsorption of residual gas had little influence on FE from the single‐atom tip, while the other tips were easily contaminated even at ultra high vacuum, resulting in the emission fluctuation. Copyright © 2006 John Wiley & Sons, Ltd.
Keywords:nano‐tip  single‐atom tip  FEM  FIM  FE spectra  field evaporation
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