“…2) Tungsten and magnesium oxides filaments have also started from few microns inside the Ni cap [22] and percolated the oxide coating with short pathways. We have no idea how many microns are these filaments long.…”
Section: New Structural Modelmentioning
confidence: 99%
“…1) Aluminum and zirconium oxide filaments have started from few microns inside the Ni cap grain boundaries [22] and percolated the oxide coating reaching the top surface. 2) Tungsten and magnesium oxides filaments have also started from few microns inside the Ni cap [22] and percolated the oxide coating with short pathways.…”
NABOK, A. (2006). Resistivity network and structural model of the oxide cathode for CRT application. Journal of display technology, 2 (2), 186-93.
Copyright and re-use policy
“…2) Tungsten and magnesium oxides filaments have also started from few microns inside the Ni cap [22] and percolated the oxide coating with short pathways. We have no idea how many microns are these filaments long.…”
Section: New Structural Modelmentioning
confidence: 99%
“…1) Aluminum and zirconium oxide filaments have started from few microns inside the Ni cap grain boundaries [22] and percolated the oxide coating reaching the top surface. 2) Tungsten and magnesium oxides filaments have also started from few microns inside the Ni cap [22] and percolated the oxide coating with short pathways.…”
NABOK, A. (2006). Resistivity network and structural model of the oxide cathode for CRT application. Journal of display technology, 2 (2), 186-93.
Copyright and re-use policy
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