JOURNAL ARTICLE
High aspect ratio silicon field emitter arrays (FEAS) as miniaturized stable electron source for catheter-based radiotherapy
Abstract
This paper presents a miniaturized electron source based on high aspect ratio silicon (Si) field emitter arrays (FEAs) intended for generating x-rays in a catheter-based radiotherapy application. The fabricated Si FEAs demonstrate stable emission currents of approximately 10 μA at an acceleration voltage of 21.7 kV for more than 15 minutes under moderate vacuum requirements. The current stability was enhanced by the introduction of a field compensation frame design for the electric field distribution and a tip conditioning procedure of the Si FEAs. The experimental results are in line with the requirement of delivering relevant doses for cancer radiotherapy.
Keywords:
Common emitter Materials science Silicon Optoelectronics Field electron emission Radiation Electron Electron gun Optics Cathode ray Physics
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Topics
Radiation Effects in Electronics
Physical Sciences → Engineering → Electrical and Electronic Engineering
Carbon Nanotubes in Composites
Physical Sciences → Materials Science → Materials Chemistry
Particle Detector Development and Performance
Physical Sciences → Physics and Astronomy → Nuclear and High Energy Physics
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