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Journal Article Experimental Evaluation of Arrayed Microcolumns with Monolithic Structure
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Authors
Jin Woo Jeong, Dae Jun Kim, Ho Seob Kim, Sang Kuk Choi, Dae Yong Kim, Hyeong Rag Lee
Issue Date
2005-07
Citation
Japanese Journal of Applied Physics, v.44, no.7B, pp.5565-5569
ISSN
0021-4922
Publisher
Japan Society of Applied Physics (JSAP), Institute of Physics (IOP)
Language
English
Type
Journal Article
DOI
https://dx.doi.org/10.1143/JJAP.44.5565
Abstract
A 2 × 2 arrayed microcolumn structure based on a monolithic deflector was evaluated experimentally. The microcolumns of this structure consist of electron emission tungsten tips, silicon membrane microlenses, double silicon deflectors, and Cu grid samples. The assembly of the microlens and column component was performed on a custom-built alignment unit consisting of an optical microscope, an alignment jig, and a motor-driven micromanipulator. The alignment of the tungsten tip and microlens hole is performed under direct observation with two perpendicularly aligned microscopes. Microlenses and deflectors (silicon octupoles) are mounted on a low temperature co-fired ceramic (LTCC) substrate. The three-dimensional interconnection structure of the LTCC substrate provides common wiring for each double octupole for synchronous operation. Each deflector was operated with same voltage sources. The 2×2 arrayed microcolumns were tested in three modes; single column, independent, and parallel mode, and the properties of these modes were compared. © 2005 The Japan Society of Applied Physics.
KSP Keywords
Applied physics, Direct observation, Electron Emission, Interconnection structure, Low temperature(LT), Low temperature co-fired ceramic (LTCC) substrate, Monolithic structure, Optical microscope, Parallel mode, Silicon Membrane, Single column