Summary
This paper presents the technical development of a high-resolution CdTe imaging detector coupled with multi-pinhole optics for in-vivo molecular imaging applications. As a physics and instrumentation contribution, the work focuses on advancing detector technology rather than agricultural, nutritional or food systems research. The findings are tangential to the scope of farming systems, soil health and human nutrition research.
UK applicability
This paper does not directly address UK agricultural practice, farming systems, soil health or nutrition outcomes, and therefore has limited applicability to Pulse Brain's focus areas.
Key measures
Detector resolution, sensitivity, image quality, multi-pinhole optics performance characteristics, CdTe imaging specifications
Outcomes reported
The study describes the development and characterisation of a high-resolution cadmium telluride (CdTe) imaging detector system using multi-pinhole optics for molecular imaging. The work reports technical specifications and performance metrics of the detector apparatus.
Topic tags
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