Summary
Boron neutron capture therapy (BNCT) is a neutron-based cancer treatment requiring a real-time <sup>10</sup>B dose monitor to optimize effectiveness. We report using of the cadmium telluride double-sided strip detector (CdTe-DSD), distinguished by its high-energy resolution in full width at half maximum (FWHM) of 7.3 keV at 511 keV and a spatial resolution of 250μm for accurate boron imaging. Employing the CdTe-DSD with a pinhole collimator, our experiment at Japan Research Reactor No. 3 (JRR-3) evaluated the <sup>10</sup>B distribution in a solid sample containing a <sup>10</sup>B concentration of 0.3 mg during neutron exposure. Although measuring the <sup>10</sup>B signal is significantly affected by the background from the γ-rays of <sup>113</sup>Cd, we successfully obtained a circular
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