Neutron radiography with sub-15μm resolution through event centroiding
Autor: | Anton S. Tremsin, Eberhard Lehmann, Oswald H. W. Siegmund, Tobias Panzner, Anders Kaestner, W. Bruce Feller, Pierre Boillat, Uwe Filges, Jason B. McPhate, John V. Vallerga |
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Rok vydání: | 2012 |
Předmět: |
Physics
Nuclear and High Energy Physics medicine.medical_specialty Physics::Instrumentation and Detectors business.industry Neutron imaging Resolution (electron density) Detector Particle detector Optics Industrial radiography medicine Neutron detection Medical physics Neutron business Instrumentation Image resolution |
Zdroj: | Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 688:32-40 |
ISSN: | 0168-9002 |
Popis: | Conversion of thermal and cold neutrons into a strong ∼1 ns electron pulse with an absolute neutron detection efficiency as high as 50–70% makes detectors with 10B-doped Microchannel Plates (MCPs) very attractive for neutron radiography and microtomography applications. The subsequent signal amplification preserves the location of the event within the MCP pore (typically 6–10 μm in diameter), providing the possibility to perform neutron counting with high spatial resolution. Different event centroiding techniques of the charge landing on a patterned anode enable accurate reconstruction of the neutron position, provided the charge footprints do not overlap within the time required for event processing. The new fast 2×2 Timepix readout with >1.2 kHz frame rates provides the unique possibility to detect neutrons with sub-15 μm resolution at several MHz/cm2 counting rates. The results of high resolution neutron radiography experiments presented in this paper, demonstrate the sub-15 μm resolution capability of our detection system. The high degree of collimation and cold spectrum of ICON and BOA beamlines combined with the high spatial resolution and detection efficiency of MCP-Timepix detectors are crucial for high contrast neutron radiography and microtomography with high spatial resolution. The next generation of Timepix electronics with sparsified readout should enable counting rates in excess of 107 n/cm2/s taking full advantage of high beam intensity of present brightest neutron imaging facilities. |
Databáze: | OpenAIRE |
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