Relation between space-charge-limiting current and electric field enhancement factor at curved surface cathode

doi:10.1088/1674-1056/19/7/075207

Abstract A two-dimensional solution of space-charge-limiting current for a high current vacuum diode with a spherical cathode is presented. The relation between space-charge-limiting current and electric field enhancement factor at the cathode surface for the diode with a curved surface cathode is also discussed. It is shown that compared with the current given by the conventional Child—Langmuir law, which describes the one-dimensional space-charege-limiting current, the two-dimensional space-charge-limiting current in such a diode is enhanced due to the electric-field enhancement along the cathode surface. Among practical parameter ranges, enhancement factor $\eta_{\rm b}$ approximately satisfies $\eta_{\rm b} \simeq A \beta^{n}$, where $\beta$ is the electric field enhancement factor at the cathode surface, and n is a constant between 1 and 2, which is confirmed to be universal for the diodes with curved surface cathodes.

Keywords: diode space-charge-limiting current intense electron beam

Received: 01 September 2009
Accepted manuscript online:

PACS:

52.75.Fk

(Magnetohydrodynamic generators and thermionic convertors; plasma diodes)

Cite this article:

Liu Guo-Zhi (刘国治), Yang Zhan-Feng (杨占峰) Relation between space-charge-limiting current and electric field enhancement factor at curved surface cathode 2010 Chin. Phys. B 19 075207

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Relation between space-charge-limiting current and electric field enhancement factor at curved surface cathode

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