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Paper detail

A backing detector for order-keV neutrons

We have designed and tested a large-area (0.15~m$^2$) neutron detector based on neutron capture on \ce{^{6}Li}. The neutron detector design has been optimized for the purpose of tagging the scattering angle of keV-scale neutrons. These neutron detectors would be employed to calibrate the low-energy ($<$100 eV) nuclear recoil in detectors for dark matter and coherent elastic neutrino nucleus scattering (CE$ν$NS). We describe the design, construction, and characterization of a prototype. The prototype is designed to have a tagging efficiency of $\sim$25\% at the relevant $\mathcal{O}$(keV) neutron energies, and with a mean capture time of $\sim$17$~μ$s. The prototype was characterized using a \ce{^{252}Cf} neutron source and agreement with the simulation was observed within a few percent level.

preprint2022arXivOpen access
A. BiekertL. ChaplinskyC. W. FinkM. Garcia-SciveresW. C. GillisW. GuoS. A. HertelG. HeuermannX. LiJ. LinR. MahapatraD. N. McKinseyP. K. PatelB. PenningH. D. PinckneyM. PlattM. PyleR. K. RomaniA. SerafinR. J. SmithB. SuerfuV. VelanG. WangY. WangS. L. WatkinsM. R. William
physics.ins-detnucl-ex
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A. BiekertL. ChaplinskyC. W. FinkM. Garcia-SciveresW. C. GillisW. GuoS. A. HertelG. HeuermannX. LiJ. LinR. MahapatraD. N. McKinseyP. K. PatelB. PenningH. D. PinckneyM. PlattM. PyleR. K. RomaniA. SerafinR. J. SmithB. SuerfuV. VelanG. WangY. WangS. L. WatkinsM. R. William

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