1. 3D silicon detectors for neutron imaging applications
- Author
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Povoli, Marco, Kok, Angela Chun Ying, Koybasi, Ozhan, Getz, Michael Norderhaug, O'Neill, George, Roehrich, Dieter, Pedersen, Henrik, Monakhov, Eduard, Birch, Jens, Choolakkal, Arun Haridas, Kanaki, Kalliopi, Lai, Chung-Chuan, Hall-Wilton, Richard, Slavicek, Tomas, and Llamas-Jansa, Isabel
- Subjects
Silisiumdetektorer ,Neutron Science ,Neutron detectors (cold ,thermal ,fast neutrons) ,Solid state detectors ,Detector mod-elling and simulations I (interaction of radiation with matter ,interaction of photons with matter ,interaction of hadrons with matter ,etc ,) ,Detector modelling and simulations II (electric fields ,charge transport ,multiplication and induction ,pulse formation ,electron emission ,3D silicon devices ,Silicon detectors ,Acceleratorfysik och instrumentering ,Accelerator Physics and Instrumentation ,Physics: 430 [VDP] ,Instrumentation ,Fysikk: 430 [VDP] ,Mathematical Physics - Abstract
Neutron detection is of great importance in many fields spanning from scientific research, to nuclear science, and to medical application. The development of silicon-based neutron detectors with enhanced neutron detection efficiency can offer several advantages such as spatial resolution, enhanced dynamic range and background discrimination. In this work, increased detection efficiency is pursued by fabricating high aspect ratio 3D micro-structures filled with neutron converting materials (B4C) on planar silicon detectors. An in-depth feasibility study was carried out in all aspects of the sensor fabrication technology. Passivation of the etched structures was studied in detail, to ensure good electrical performance. The conformal deposition of B4C with a newly developed process showed excellent results. Preliminary electrical characterisation of the completed devices is promising, and detectors have been mounted on dedicated boards in view of the upcoming tests with neutrons. Funding Agencies|Research Council of Norway [289437]; Swedish Research Council [2018-05499]; Swedish Government Strategic Research Area in Materials Science on Advanced Functional Materials (AFM) at Linkoping University (Faculty Grant SFO Mat LiU) [2009 00971]
- Published
- 2023