1. Computer simulation of field emission devices with focusing structure
- Author
-
C.H. Wan, J.H. Tsai, W.C. Wang, Y. Hu, T.L. Lin, S.H. Chen, Y.C. Lan, C.M. Lin, and J.T. Lai
- Subjects
Physics ,Field (physics) ,business.industry ,Resolution (electron density) ,Structure (category theory) ,Electron ,engineering.material ,Cathode ,law.invention ,Field electron emission ,Optics ,Coating ,law ,engineering ,business ,Beam (structure) - Abstract
Summary form only given. Beam focusing is a crucial technique for promoting the resolution of the field-emission displays. Various focusing structures for the Spindt-type field emission device have been proposed and applied on previous works, e.g. coaxial-type focusing, coplanar-type focusing (Kesling et al., 1995), ridge-type focusing and mesh-electrode focusing. The diamond-film coating provides another possibility to design new types of field emission devices with inherently smaller beam size. The planar-type and concave-lens-type cathodes are examples. In this study, diamond-film-coated field emitters with different emitting shapes are proposed and simulated by the MAGIC particle-in-cell code (Goplen et al., 1997). The focusing effect inherent in the emitting shape will be characterized and analyzed. The traditional Spindt-type devices with various focusing structures are also studied for comparisons. The electron trajectories, the spot sizes of beams, and the I-V curves are investigated systematically for each device.
- Published
- 2003
- Full Text
- View/download PDF