A Review of Electron Emitters for High-Power and High-Frequency Vacuum Electron Devices

This work reviews the progress in the area of high current density electron emitters, specifically for use in high frequency and high-power microwave vacuum electron devices. The review is divided into two subsections: 1) thermionic cathodes and 2) field emission cathodes. The thermionic cathode sec...

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Bibliographic Details
Published in:IEEE transactions on plasma science 2020-10, Vol.48 (10), p.3446-3454
Main Authors: Singh, Asish Kumar, Shukla, Sushil Kumar, Ravi, Meduri, Barik, Ranjan Kumar
Format: Article
Language:English
Subjects:
Barium
Cathodes
Current density
Dispenser cathodes
Electrons
Emissions control
Emitters
Emitters (electron)
Field emission
field emitter arrays (FEAs)
Graphene
High current
Ion bombardment
Nonuniformity
Powders
Surface treatment
Thermionic cathodes
Thermionic emission
vacuum electron devices (VEDs)
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Summary:This work reviews the progress in the area of high current density electron emitters, specifically for use in high frequency and high-power microwave vacuum electron devices. The review is divided into two subsections: 1) thermionic cathodes and 2) field emission cathodes. The thermionic cathode section includes the discussion on the M-type, MM-type, Scandate and the CPD cathodes. CPD cathode promises better usability in a practical device as compared to the Scandate cathodes which are limited by emission nonuniformity, poor resistance to poisoning/ion bombardment and low life. With the increasing demand for miniaturized and high power VEDs in the near future, the development of high current density field emission cathodes is of immediate interest to the VED community. The Spindt, CNT, and graphene-based emitters are the potential candidates in the field emitters section. Graphene-based film cathodes, when compared to the Mo/Si FEAs and the CNTs, offer larger emission area as well as high current carrying capability. This review includes the evolution of the emission capabilities of the emitters, state-of-the-art performances, and possible future developments.
ISSN:0093-3813
1939-9375
DOI:10.1109/TPS.2020.3011285