Roadmap for high efficiency solid-state neutron detectors

R. J. Nikolić; C. L. Cheung; C. E. Reinhardt; T. F. Wang

doi:10.1117/12.633256

25 October 2005 Roadmap for high efficiency solid-state neutron detectors

R. J. Nikolić, C. L. Cheung, C. E. Reinhardt, T. F. Wang

Proceedings Volume 6013, Optoelectronic Devices: Physics, Fabrication, and Application II; 601305 (2005) https://doi.org/10.1117/12.633256
Event: Optics East 2005, 2005, Boston, MA, United States

Abstract

Solid-state thermal neutron detectors are generally fabricated in a planar configuration by coating a layer of neutron-to-alpha converter material onto a semiconductor. The as-created alpha particles in the material are expected to impinge the semiconductor and create electron-hole pairs which provide the electrical signal. These devices are limited in efficiency to a range near (2-5%)/cm² due to the conflicting thickness requirements of the converter layer. In this case, the layer is required to be thick enough to capture the incoming neutron flux while at the same time adequately thin to allow the alpha particles to reach the semiconductor. A three dimensional matrix structure has great potential to satisfy these two requirements in one device. Such structures can be realized by using PIN diode pillar elements to extend in the third dimension with the converter material filling the rest of the matrix. Our strategy to fabricate this structure is based on both "top-down" and "bottom-up" approaches. The "top down" approach employs high-density plasma etching techniques, while the "bottom up" approach draws on the growth of nanowires by chemical vapor deposition. From our simulations for structures with pillar diameters from 2 micron down to 100 nm, the detector efficiency is expected to increase with a decrease in pillar size. Moreover, in the optimized configuration, the detector efficiency could be higher than 75%/cm². Finally, the road map for the relationship between detector diameter and efficiency will be outlined.

Citation Download Citation

R. J. Nikolić, C. L. Cheung, C. E. Reinhardt, and T. F. Wang "Roadmap for high efficiency solid-state neutron detectors", Proc. SPIE 6013, Optoelectronic Devices: Physics, Fabrication, and Application II, 601305 (25 October 2005); https://doi.org/10.1117/12.633256

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