Deuterated-xylene (xylene-d10; EJ301D): A new, improved deuterated liquid scintillator for neutron energy measurements without time-of-flight

F. D. Becchetti, R. S. Raymond, R. O. Torres-Isea, A. Di Fulvio, S. D. Clarke, S. A. Pozzi, M. Febbraro

Research output: Contribution to journalArticlepeer-review

16 Scopus citations

Abstract

In conjunction with Eljen Technology, Inc. (Sweetwater,TX) we have designed, constructed, and evaluated a 3 in. ×3 in. deuterated-xylene organic liquid scintillator (C8D10; EJ301D) as a fast neutron detector. Similar to deuterated benzene (C6D6; NE230, BC537, and EJ315) this scintillator can provide good pulse-shape discrimination between neutrons and gamma rays, has good timing characteristics, and can provide a light spectrum with peaks corresponding to discrete neutron energy groups up to ca. 20 MeV. Unlike benzene-based detectors, deuterated xylene is less volatile, less toxic, is not known to be carcinogenic, has a higher flashpoint, and hence is much safer for many applications. In addition EJ301D can provide slightly more light output and better PSD than deuterated-benzene scintillators. We show that, as with deuterated-benzene scintillators, the light-response spectra can be unfolded to provide useable neutron energy spectra without need for time-of-flight (ToF). An array of these detectors arranged at many angles close to a reaction target can be much more effective (×10 to ×100 or more) than an array of long-path ToF detectors which must utilize a narrowly-bunched and pulse-selected beam. As we demonstrate using a small Van de Graaff accelerator, measurements can thus be performed when a bunched and pulse-selected beam (as needed for time-of-flight) is not available.

Funding

We thank Mr. O. Toader and the staff at the UM MIBL for their assistance in the (d,n) accelerator measurements. This work was funded in part by NSF Grant PHY 14-01242 and the Consortium for Verification Technology under Department of Energy National Nuclear Security Administration award number DE-NA 0002534 .

FundersFunder number
National Science FoundationPHY 14-01242
National Nuclear Security AdministrationDE-NA 0002534

    Keywords

    • Deuterated scintillators
    • Neutron detection
    • Neutron scintillators
    • Neutron spectroscopy
    • Nuclear safeguards

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