Your search keyword '"Meierbachtol A"' showing total 2 results

1. Quantification of the light output anistropy in deuterated stilbene.

Author

Borgwardt, T.C., Bartlett, K.D., Smith, K., Meierbachtol, K.C., Weldon, R.A., Zaitseva, N., and Febbraro, M.

Subjects

*SCINTILLATORS, *NEUTRON spectroscopy, *FAST neutrons, *CRYSTAL structure, *NEUTRON temperature, *STILBENE, *ANISOTROPY, *ARABINOXYLANS

Abstract

Deuterated stilbene is an organic scintillator that is a desirable material for fast neutron spectroscopy using spectrum unfolding techniques without requiring time-of-flight information. Due to the crystal structure of the material, some anisotropy of the light output exists, which is dependent on the direction of heavy charged particle recoil relative to the crystal structure. The anisotropy of trans-stilbene (hereafter referred to as stilbene) has been well characterized in previous work, but for deuterated stilbene, the anisotropy has only been partially characterized along the a and b crystal axes, while the artificial c ′ axis, which shows the largest anisotropy in stilbene, has not been characterized until this publication. In this work, two deuterated stilbene crystals were characterized with neutron energies up to 35 MeV at the Los Alamos Neutron Science Center. For one of the crystals, the response is characterized along the a , b , and c ′ axes. This characterization shows a distinct anisotropy along the axes in deuterated stilbene, which is very similar to that found in regular stilbene, such that the a axis is the brightest, while the b and c ′ axes are approximately 3% and 20%–35% lower relative to the a axis. [ABSTRACT FROM AUTHOR]

Published

2024

2. Advancements of the nSpec system.

Author

Borgwardt, T.C., Bartlett, K.D., Smith, K., Meierbachtol, K.C., Beckman, D., Toomey, R., King, T., and Febbraro, M.

Subjects

*FAST neutrons, *LIQUID scintillators, *LEAK detectors, *NEUTRON temperature, *SCINTILLATORS, *STILBENE, *DETECTORS

Abstract

A new characterization of the detector response for the EJ301 liquid scintillator based nSpec system has been conducted at the Los Alamos Neutron Science Center. The new characterization was accomplished in two orders of magnitude less time and with better statistics than the previous characterization. The new and old characterization methods were compared by conducting both types of characterization on two detectors (one EJ301 and one EJ301D). The two methods show consistent results and compare well to results previously published in the literature; however, the results from the characterization of the original nSpec detector show discrepancies that have been identified as being caused by oxygen being absorbed into the detector due to a leak. The new characterized detector response shows improved spectrum unfolding performance than the previous characterization. The cross talk of the detector system was also characterized as a function of incident neutron energy and found to have a negligible impact on spectrum unfolding results. Alternative materials (EJ301D and stilbene) were also characterized in a first step towards an upgraded system. The different materials show little difference in unfolding performance, but the comparison is ongoing. A SiPM based stilbene detector was used to evaluate the use of SiPMs in a future system upgrade. The SiPM provides adequate performance, but the custom SiPM readout results in a much longer pulse width than PMT based systems. The measured light output of the SiPM based stilbene compares well with the results in literature. Future work will look at additional materials (deuterated stilbene and organic glass) and optimizing the SiPM readout to decrease the pulse width. [ABSTRACT FROM AUTHOR]

Published

2023