Luminescence and Scintillation Properties of Dy<sup>3+</sup> doped Li<inf>6</inf>Y(BO<inf>3</inf>)<inf>3</inf> crystal

© 2020 The orthoborate crystals with a wide optical bandgap allow different rare earth ions as an activator (Ce3+, Dy3+, Eu3+, etc.) to provide efficient luminescence. In the present study, Li6Y(BO3)3 pure and 4 mol% Dy3+ doped single crystals have been grown using the Czochralski method. The light...

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Main Authors: Sudipta Saha, H. J. Kim, Arshad Khan, D. Joseph Daniel, Ragib Absar, Robin Barman, Pabitra Aryal, J. Kaewkhao, S. Kothan
Format: Journal
Published: 2020
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Institution: Chiang Mai University
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spelling th-cmuir.6653943832-703802020-10-14T08:49:11Z Luminescence and Scintillation Properties of Dy<sup>3+</sup> doped Li<inf>6</inf>Y(BO<inf>3</inf>)<inf>3</inf> crystal Sudipta Saha H. J. Kim Arshad Khan D. Joseph Daniel Ragib Absar Robin Barman Pabitra Aryal J. Kaewkhao S. Kothan Chemistry Computer Science Engineering Materials Science Physics and Astronomy © 2020 The orthoborate crystals with a wide optical bandgap allow different rare earth ions as an activator (Ce3+, Dy3+, Eu3+, etc.) to provide efficient luminescence. In the present study, Li6Y(BO3)3 pure and 4 mol% Dy3+ doped single crystals have been grown using the Czochralski method. The light emission of the grown crystals has been characterized by using X-ray luminescence, photoluminescence and thermoluminescence measurements. Intrinsic luminescence property has been observed for pure crystal at 330 nm and the characteristic emission of Dy3+ was observed in doped crystal under X-ray excitation. Photoluminescence study of the doped crystal at low temperature has shown the increased peak intensity with the decrease of temperature from 290 to 10 K. Decay time has been measured at the temperature ranging from 290 to 10 K which consists of three components in each stage. Thermally stimulated luminescence of both pure and 4 mol% Dy3+ doped LYBO crystals have been compared at low temperature from 320 K to 10 K. Scintillation β− counts measured from 300 K to 10 K. The performance of the doped crystal has been tested as a scintillator for thermal neutron imaging. 2020-10-14T08:28:48Z 2020-10-14T08:28:48Z 2020-08-01 Journal 09253467 2-s2.0-85084337674 10.1016/j.optmat.2020.109973 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85084337674&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/70380
institution Chiang Mai University
building Chiang Mai University Library
continent Asia
country Thailand
Thailand
content_provider Chiang Mai University Library
collection CMU Intellectual Repository
topic Chemistry
Computer Science
Engineering
Materials Science
Physics and Astronomy
spellingShingle Chemistry
Computer Science
Engineering
Materials Science
Physics and Astronomy
Sudipta Saha
H. J. Kim
Arshad Khan
D. Joseph Daniel
Ragib Absar
Robin Barman
Pabitra Aryal
J. Kaewkhao
S. Kothan
Luminescence and Scintillation Properties of Dy<sup>3+</sup> doped Li<inf>6</inf>Y(BO<inf>3</inf>)<inf>3</inf> crystal
description © 2020 The orthoborate crystals with a wide optical bandgap allow different rare earth ions as an activator (Ce3+, Dy3+, Eu3+, etc.) to provide efficient luminescence. In the present study, Li6Y(BO3)3 pure and 4 mol% Dy3+ doped single crystals have been grown using the Czochralski method. The light emission of the grown crystals has been characterized by using X-ray luminescence, photoluminescence and thermoluminescence measurements. Intrinsic luminescence property has been observed for pure crystal at 330 nm and the characteristic emission of Dy3+ was observed in doped crystal under X-ray excitation. Photoluminescence study of the doped crystal at low temperature has shown the increased peak intensity with the decrease of temperature from 290 to 10 K. Decay time has been measured at the temperature ranging from 290 to 10 K which consists of three components in each stage. Thermally stimulated luminescence of both pure and 4 mol% Dy3+ doped LYBO crystals have been compared at low temperature from 320 K to 10 K. Scintillation β− counts measured from 300 K to 10 K. The performance of the doped crystal has been tested as a scintillator for thermal neutron imaging.
format Journal
author Sudipta Saha
H. J. Kim
Arshad Khan
D. Joseph Daniel
Ragib Absar
Robin Barman
Pabitra Aryal
J. Kaewkhao
S. Kothan
author_facet Sudipta Saha
H. J. Kim
Arshad Khan
D. Joseph Daniel
Ragib Absar
Robin Barman
Pabitra Aryal
J. Kaewkhao
S. Kothan
author_sort Sudipta Saha
title Luminescence and Scintillation Properties of Dy<sup>3+</sup> doped Li<inf>6</inf>Y(BO<inf>3</inf>)<inf>3</inf> crystal
title_short Luminescence and Scintillation Properties of Dy<sup>3+</sup> doped Li<inf>6</inf>Y(BO<inf>3</inf>)<inf>3</inf> crystal
title_full Luminescence and Scintillation Properties of Dy<sup>3+</sup> doped Li<inf>6</inf>Y(BO<inf>3</inf>)<inf>3</inf> crystal
title_fullStr Luminescence and Scintillation Properties of Dy<sup>3+</sup> doped Li<inf>6</inf>Y(BO<inf>3</inf>)<inf>3</inf> crystal
title_full_unstemmed Luminescence and Scintillation Properties of Dy<sup>3+</sup> doped Li<inf>6</inf>Y(BO<inf>3</inf>)<inf>3</inf> crystal
title_sort luminescence and scintillation properties of dy<sup>3+</sup> doped li<inf>6</inf>y(bo<inf>3</inf>)<inf>3</inf> crystal
publishDate 2020
url https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85084337674&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/70380
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