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*STTR Project: Efficient Thermal Neutron Position Sensitive Detector--NOVA Scientific, Inc., Sturbridge Technology Park, 10 Picker Road, Sturbridge, MA  01566‑1251; 508‑347‑7679; www.novascientific.com

Mr. W. Bruce Feller, Principal Investigator, bfeller@novascientific.com

Mr. Paul L. White PhD, Business Official, pwhite@novascientific.com

DOE Grant No. DE‑FG02‑07ER86322

Amount:  $750,000

 

Research Institution

University of CaliforniaBerkeley

Berkeley, CA 

 

The new generation of neutron scattering and imaging facilities, such as the Spallation Neutron Source (SNS), will provide much higher fluences at sample positions than existing neutron sources, requiring detectors with better spatial resolution, sub-1 ms rate capability, and excellent gamma ray rejection.  This project will develop a powerful new type of thermal neutron imaging and counting detector based on 10B and Gd-doped, neutron-sensitive, microchannel plate (MCP) neutron converter/amplifiers, and integrated with novel solid-state Medipix-2 and Medipix-3 electronic readouts.  Phase I demonstrated both cold and thermal neutron images of a Gd phantom with laser drilled 50 µm holes, where the limiting spatial resolution was dictated by the 55 µm Medipix 2 pixel size.  Using beams with differing energies above and below the Bragg cutoff, dramatically enhanced contrast was demonstrated, indicating that energy-resolved imaging can be performed using this detector.  Phase I also showed that pulse amplitude analysis can be implemented to differentiate between UV and alpha particle inputs, thereby enabling the enhancement of gamma rejection.  Phase II will (1) further refine MCP neutron performance; (2) carry out design improvements to the electronics, data processing software, and detector assembly hardware; (3) fully investigate and test neutron energy-resolved imaging; and (4) add post-target collimators to optimize neutron efficiency, spatial resolution, and time-of-flight performance.

 

Commercial Applications and Other Benefits as described by the awardee:  The MCP/Medipix detector should provide position resolution that is now available only with photographic film, but in real-time and with a neutron-beam-fluence-handling capability potentially superior to any neutron detection system currently available.  The new type of thermal neutron imager should find use in biological imaging, nuclear fuel inspection, explosives detection, archaeological studies, and precise neutron beam monitoring.