Summary
This paper presents a technical development of a CdTe-based imaging detector system with multi-pinhole optics intended for in-vivo molecular imaging. The work is centred on instrumentation design and characterisation rather than agricultural or nutritional outcomes. The research falls outside the scope of Vitagri's Pulse Brain catalogue.
UK applicability
This instrumental physics paper has no direct applicability to UK farming systems, soil health, nutrient density or food-related human health research. It addresses detector technology for medical or research imaging, not agricultural or nutritional science.
Key measures
Detector resolution, imaging sensitivity, pinhole optics configuration, CdTe performance characteristics
Outcomes reported
The study describes development and characterisation of a high-resolution cadmium telluride (CdTe) imaging detector system employing multi-pinhole optics for in-vivo molecular imaging applications. Technical performance metrics of the detector apparatus are reported.
Topic tags
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