Title :
Microcavity-enhanced electron emission from lead zirconate-titanate cathodes
Author :
Houlahan, Thomas J. ; Marsh, C.P. ; Park, Sung-Jin ; Masters, B.C. ; Eden, J. Gary
Author_Institution :
Eng. R&D Center, US Army Corps of Eng., Champaign, IL, USA
Abstract :
Enhanced electron emission has been observed from lead zirconate- titanate (PZT) surfaces into which arrays of microcavities have been fabricated by nanopowder blasting. Arrays of microcavities, each having an elliptical cross-sectional geometry with major and minor axis lengths of 800 and 600 ??m, respectively, and depths adjustable from 40 to 300 ??m, exhibit a pronounced dependence of the emitter electron current on microcavity depth. For electric field strengths at the emitter surface of ~5-12 V/??m, the RMS current density generated by an array of 250 ??m-deep microcavities with a packing density of 214 + 2 cm-2 ranges from ~3 mA cm-2 to beyond 8 mA cm-2, or more than a factor of five larger than that produced from a planar PZT surface.
Keywords :
cathodes; current density; ferroelectric materials; field emitter arrays; lead compounds; microcavities; PZT; RMS current density; cathodes; depth 40 mum to 300 mum; electric field strength; elliptical cross-sectional geometry; emitter electron current; enhanced electron emission; microcavity arrays; nanopowder blasting; packing density; size 600 mum; size 800 mum;
Journal_Title :
Electronics Letters
DOI :
10.1049/el.2009.0386
