In situ diagnostics of the crystal-growth process through neutron imaging: application to scintillators

Tremsin, A.S.; Makowska, M.G.; Perrodin, D.; Shalapska, T.; Khodyuk, I.V.; Trtik, P.; Boillat, P.; Vogel, S.C.; Losko, A.S.; Strobl, M.; Kuhn, L.T.; Bizarri, G.A.; Bourret-Courchesne, E.D.

doi:10.1107/S1600576716004350

Journal of Applied Crystallography Journal of Applied
Crystallography

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Figure 4
Neutron transmission spectra for BaBrCl:Eu samples with different concentrations of Eu dopant, as shown in the legend (in mole %), calculated from equations (2)

and (3)

using tabulated cross sections from the ENDF database. A constant 5 mm sample thickness, a natural isotopic abundance for Eu (¹⁵¹Eu 47.8% and ¹⁵³Eu 52.2%) and a density of 4.5 Mg m⁻³ are assumed in the calculations. Strong neutron resonance absorptions at ∼0.42, 0.28, 0.22, 0.18 and 0.16 Å (∼0.46, 1.06, 1.76, 2.47 and 3.39 eV) are present for the Eu dopant and can be used for unambiguous imaging in energy-resolved experiments, as well as Ba and Br for high-energy resonances. In the thermal and cold neutron ranges, Eu provides nearly half of the attenuation contrast, even at the 0.5% dopant concentration.

JOURNAL OF
APPLIED
CRYSTALLOGRAPHY

ISSN: 1600-5767

Volume 49| Part 3| June 2016| Pages 743-755

doi:10.1107/S1600576716004350

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