Cold Neutron Imaging and Efficiency Measurements with a Boron-10 Coated Double-GEM Detector

Abstract

A 10B-coated double-GEM neutron detector (BGEM) was developed as a 3He-free cold-neutron beamline detector using a single B4C converter cathode and a 512-channel APV25 orthogonal-strip readout over an active area of 10 × 10~cm2. The detector was tested at the HANARO Bio-REF beamline with a monochromatic 4.5~A beam (En=4.03~meV). The absolute detection efficiency relative to a 6Li-based Ce:LiCAF reference detector was BGEM=(8.69 0.20)\% (stat.). The pulse-height spectrum was qualitatively consistent with Geant4 energy-deposition simulations, and Cd-mask imaging yielded a Gaussian-equivalent edge-spread width of σ = 555 102~μm. These results establish a cold-neutron beamline benchmark for a single-converter BGEM detector with full-strip APV25 readout.