References
- Jenkins RO. A review of thermionic cathodes. Vacuum. 1969;19(8):353–359.10.1016/S0042-207X(69)80077-1
- Cronin JL. Modern dispenser cathode. IEE Proc. 1981;128(1):19–32.
- Kohl WH. ‘Handbook of materials and techniques for vacuum devices’, Reinhold Publishing Corporation. London: New York and Chapman & Hall Ltd; 1960. p. 360–364.
- Lin CC, Shiue RK, Shy HJ. Joining refractory metals for high-temperature applications. Adv Mater Res. 2012;538–541:1541–1544.10.4028/www.scientific.net/AMR.538-541
- Jasionains JP, Cline JE. Brazing molybdenum and tungsten cathode parts with ruthenium – processing data. IRE Trans Electron Devices. 1957;3(3):162.
- Busbhaer D, Liu W, Sekulic DP. High temperature brazing using nano-particles doped filler metal for dispenser cathode applications. IEEE International Vacuum Electronics Conference; 2010 May 18–20; USA.
- Busbhaer D, Liu W, Mocher D, et al. High temperature brazing of porous tungsten with nano structured Mo–Ni for dispenser cathode applications. IEEE International Vacuum Electronics Conference; 2011 Feb 21–24; India.
- Liu W, Busbhaer D, Li Y, et al. Homogeneous and heterogeneous Mo–Ni fillers doped with nanoparticles. International Brazing and Soldering Conference, IBS, Proceedings from the 5th International Brazing and Soldering Conference; 2012 April 2–25; Las Vegas.
- Busbhaer D, Liu W, Sekulic DP. Mechanical properties of nanoparticles reinforced Mo–Ni braze for a dispenser cathode application. IEEE International Vacuum Electronics Conference; 2012 April 24–26; Monterey, CA, USA.
- Busbhaer D, Sekulic DP. Wetting of Mo/Ni nanocompositesfor dispenser cathode Mo/Re brazing applications. IEEE International Vacuum Electronics Conference; 2009 April 28–30; Italy.
- Patrician TJ, Ritsko JE, Martin HD. Process of producing molybdenum–ruthenium metal powder. US Patent No. 4859236. 1989.