Shape-Controlled Crystal Growth of Y3Al5O12:Ce Single Crystals with Application of Micro-Pulling-Down Method and Mo Crucibles, and Their Scintillation Properties

Masao Yoshino; Atsushi Kotaki; Yuui Yokota; Takahiko Horiai; Akira Yoshikawa

doi:10.3390/cryst12091215

Shape-Controlled Crystal Growth of Y₃Al₅O₁₂:Ce Single Crystals with Application of Micro-Pulling-Down Method and Mo Crucibles, and Their Scintillation Properties

Masao Yoshino, Atsushi Kotaki, Yuui Yokota, Takahiko Horiai, Akira Yoshikawa

Research output: Contribution to journal › Article › peer-review

Abstract

The technology to grow single crystals of the required shape directly from a melt has been researched extensively and developed in various industries and research fields. In this study, a micro-pulling-down method and a Mo crucible were applied to the shape-controlled crystal growth of Y (Formula presented.) Al (Formula presented.) O (Formula presented.) :Ce (YAG:Ce). Three types of Mo crucibles with different die shapes were developed. Stable crystal growth of more than 50 mm in length was achieved with the same shape as the die, and scintillation light output of ~20,000 ph/MeV, which is comparable with those of the YAG:Ce crystal grown by Cz method, were obtained. The transmittance of grown crystals above 500 nm was above 70%. The standard deviation ((Formula presented.)) of the scintillation light output at each position of the 50-mm-long sample was found to be within ±16%.

Original language	English
Article number	1215
Journal	Crystals
Volume	12
Issue number	9
DOIs	https://doi.org/10.3390/cryst12091215
Publication status	Published - 2022 Sept

Keywords

Mo crucibles
micro-pulling-down method
scintillator materials
shape-controlled crystal growth

ASJC Scopus subject areas

Chemical Engineering(all)
Materials Science(all)
Condensed Matter Physics
Inorganic Chemistry

Access to Document

10.3390/cryst12091215

Cite this

@article{f12abbb0aef6491dbb5298bb9c0c167b,

title = "Shape-Controlled Crystal Growth of Y3Al5O12:Ce Single Crystals with Application of Micro-Pulling-Down Method and Mo Crucibles, and Their Scintillation Properties",

abstract = "The technology to grow single crystals of the required shape directly from a melt has been researched extensively and developed in various industries and research fields. In this study, a micro-pulling-down method and a Mo crucible were applied to the shape-controlled crystal growth of Y (Formula presented.) Al (Formula presented.) O (Formula presented.) :Ce (YAG:Ce). Three types of Mo crucibles with different die shapes were developed. Stable crystal growth of more than 50 mm in length was achieved with the same shape as the die, and scintillation light output of ~20,000 ph/MeV, which is comparable with those of the YAG:Ce crystal grown by Cz method, were obtained. The transmittance of grown crystals above 500 nm was above 70%. The standard deviation ((Formula presented.)) of the scintillation light output at each position of the 50-mm-long sample was found to be within ±16%.",

keywords = "Mo crucibles, micro-pulling-down method, scintillator materials, shape-controlled crystal growth",

author = "Masao Yoshino and Atsushi Kotaki and Yuui Yokota and Takahiko Horiai and Akira Yoshikawa",

note = "Funding Information: This work was supported by JSPS KAKENHI [grant numbers 21H03834, 19K17191]. Publisher Copyright: {\textcopyright} 2022 by the authors.",

year = "2022",

month = sep,

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language = "English",

volume = "12",

journal = "Crystals",

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AU - Yoshino, Masao

AU - Kotaki, Atsushi

AU - Yokota, Yuui

AU - Horiai, Takahiko

AU - Yoshikawa, Akira

PY - 2022/9

Y1 - 2022/9

N2 - The technology to grow single crystals of the required shape directly from a melt has been researched extensively and developed in various industries and research fields. In this study, a micro-pulling-down method and a Mo crucible were applied to the shape-controlled crystal growth of Y (Formula presented.) Al (Formula presented.) O (Formula presented.) :Ce (YAG:Ce). Three types of Mo crucibles with different die shapes were developed. Stable crystal growth of more than 50 mm in length was achieved with the same shape as the die, and scintillation light output of ~20,000 ph/MeV, which is comparable with those of the YAG:Ce crystal grown by Cz method, were obtained. The transmittance of grown crystals above 500 nm was above 70%. The standard deviation ((Formula presented.)) of the scintillation light output at each position of the 50-mm-long sample was found to be within ±16%.

AB - The technology to grow single crystals of the required shape directly from a melt has been researched extensively and developed in various industries and research fields. In this study, a micro-pulling-down method and a Mo crucible were applied to the shape-controlled crystal growth of Y (Formula presented.) Al (Formula presented.) O (Formula presented.) :Ce (YAG:Ce). Three types of Mo crucibles with different die shapes were developed. Stable crystal growth of more than 50 mm in length was achieved with the same shape as the die, and scintillation light output of ~20,000 ph/MeV, which is comparable with those of the YAG:Ce crystal grown by Cz method, were obtained. The transmittance of grown crystals above 500 nm was above 70%. The standard deviation ((Formula presented.)) of the scintillation light output at each position of the 50-mm-long sample was found to be within ±16%.

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KW - scintillator materials

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