Analytical interfacial studies of double carbonate thermionic oxide cathodes over accelerated operational life

“…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.…”

“…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.…”

Resistivity Network and Structural Model of the Oxide Cathode for CRT Application

“…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.…”

“…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.…”

Resistivity Network and Structural Model of the Oxide Cathode for CRT Application

Oxide Cathodes

The evolution of oxide cathodes for cathode ray tube applications