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Journal of Materials Science

Erschienen in:

30.01.2017 | Eutectics

Growth of LiF/LiBaF₃ eutectic scintillator crystals and their optical properties

verfasst von: Shunsuke Kurosawa, Akihiro Yamaji, Jan Pejchal, Yuui Yokota, Yuji Ohashi, Kei Kamada, Akira Yoshikawa

Erschienen in: Journal of Materials Science | Ausgabe 10/2017

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Abstract

Li-containing materials can be applied as neutron scintillators, and LiBaF₃ can discriminate neutron and gamma rays. Moreover, LIF/LiBaF₃ can have higher cross section of thermal-neutron capture compared with LiBaF₃. In this study, LiF (82.5 mol%) and (Ba_1−x RE_x)F₂ (17.5 mol%, RE = Ce and Eu, x = 0.002) eutectic crystals, LiF/RE:LiBaF₃, were grown by the micropulling down method with different pulling rates (growth rate) in order to observe the eutectic structure. Lamellar microstructure was formed for each pulling rate. LiF/Ce:LiBaF₃ excited by 5.5-MeV alpha rays had a broad peak at ~350 nm corresponding to 5d–4f transition of Ce³⁺. On the other hand, LiF/Eu:LiBaF₃ had two scintillation processes; a sharp emission was originated from ⁶P_7/2 → ⁸S_7/2 transitions in the 4f electronic configuration of Eu²⁺ at 360 nm, and a broad one was attributed to Eu²⁺ trapped exciton recombination at 400–450 nm. Since scintillation light was observed for these materials, these scintillators are sensitive to neutrons.

Vorheriger Artikel Solidification of NaCl–LiF– ternary composites

Nächster Artikel Local investigation of the emissive properties of LaB6–ZrB2 eutectics

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Blakeley MP, Langan P, Niimura N, Podjarny A (2008) Neutron crystallography: opportunities, challenges, and limitations. Curr Opin Struct Biol 18:593–600CrossRef

Chandra R, Davatz G, Gendotti U, Howard A (2010) “Fast neutron detection in homeland security applications.” Nucl Sci Symp Conf Rec (NSS/MIC) IEEE 508–511

Knoll GF (1979) Radiation detection and measurement. Wiley, New York

Parker JD, Hattori K, Fujioka H, Harada M, Iwaki S, Kabuki S, Kishimoto Y, Kubo H, Kurosawa S, Miuchi K, Nagae T, Nishimura H, Oku T, Sawano T, Shinohara T, Suzuki J, Takada A, Tanimori T, Ueno K (2013) Neutron imaging detector based on the μPIC micro-pixel chamber. Nucl Instrum Methods Phys Res A 697:23–31CrossRef

van Eijk Carel W E (2002) Neutron PSDs for the next generation of spallation neutron sources. Nucl Instrum Methods Phys Res A 477:383–390CrossRef

van Eijk Carel W E (2004) Inorganic scintillators for thermal neutron detection. Radiat Meas 38:337–342CrossRef

Sen I, Penumadu D, Williamson M, Miller LF, Green AD, Mabe AN (2011) Thermal neutron scintillator detectors based on poly (2-Vinylnaphthalene) composite films. IEEE Trans Nucl Sci 58:1386–1393CrossRef

Kawaguchi N, Yanagida T, Novoselov A, Kim KJ, Fukuda K, Yoshikawa A, Miyake M, Baba M (2008) “Neutron responses of Eu activated LiCaAIF₆ scintillator” IEEE Nucl Sci Symp Conf Rec, NSS ‘08. IEEE 1174–1176

Ohashi Yoshihiro, Yasui Nobuhiro, Suzuki Tatsuya, Watanabe Masatoshi, Den Toru, Kamada Kei, Yokota Yuui, Yoshikawa Akira (2014) Orientation relationships of unidirectionally aligned GdAlO₃/Al₂O₃ eutectic fibers. J Eur Ceram Soc 34(15):3849–3857CrossRef

10.

Yoshikawa A, Nikl M, Boulon G, Fukuda T (2007) Crystal growth of Ce:PrF₃ by micro-pulling-down method. Opt Mater 30:6–10CrossRef

11.

Knitel MJ, Dorenbos P, De Haas JTM, Van Eijk CWE (1995) LiBaF₃ as a thermal neutron scintillator. Radiat Meas 24:361–363CrossRef

12.

Knitel MJ, Dorenbos P, de Haas JTM, van Eijk CWE (1996) LiBaF3, a thermal neutron scintillator with optimal n-γ discrimination. Nucl Instrum Methods Phys Res A 374:197–201CrossRef

13.

Combes CM, Dorenbos P, van Eijk CWE, Gesland JY, Rodnyi PA (1997) Optical and scintillation properties of LiBaF₃:Ce crystals. J Lumin 72–74:753–755CrossRef

14.

Gektin A, Shiran N, Voloshinovski A, Voronova V, Zimmerer G (1998) Scintillation in LiBaF₃(Ce) crystals. IEEE Trans Nucl Sci 45:505–507CrossRef

15.

Agulyanskii AI, Bessonova V (1982) “Meltability of salt mixtures containing lithium, barium, and lanthanum fluorides Russ”. J Inorg Chem 27:579–581; The American Ceramic Society and the National Institute of Standards and Technology, 2016. Figure Number 7490; www.nist.gov/srd/nist31.cfm

16.

Shunsuke Kurosawa, Takayuki Yanagida, Yuui Yokota, Akira Yoshikawa (2012) “Crystal growth and scintillation properties of fluoride scintillators”. IEEE Trans Nucl Sci 59:2173–2176

17.

https://imagej.nih.gov/ij/

18.

Shannon RD (1976) Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides. Acta Cryst A32:751–767CrossRef

19.

Mahlik S, Wisniewski K, Grinberg M, Seo Hyo Jin (2010) Luminescence of LiBaF₃ and KMgF₃ doped with Eu²⁺. J Non Cryst Solids 356:1888–1892CrossRef

20.

Kurosawa Shunsuke, Pejchal Jan, Wakahara Shingo, Yokota Yuui, Yoshikawa Akira (2013) Optical properties and radiation response of Ce:SrHfO₃ prepared by the spark plasma sintering method. Radiat Meas 56:155–158CrossRef

Titel: Growth of LiF/LiBaF3 eutectic scintillator crystals and their optical properties
verfasst von: Shunsuke Kurosawa
Akihiro Yamaji
Jan Pejchal
Yuui Yokota
Yuji Ohashi
Kei Kamada
Akira Yoshikawa
Publikationsdatum: 30.01.2017
Verlag: Springer US
Erschienen in: Journal of Materials Science / Ausgabe 10/2017
Print ISSN: 0022-2461
Elektronische ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-017-0815-1

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