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Low temperature afterglow from SrAl2O4: Eu, Dy, B containing glass

Tutkimustuotosvertaisarvioitu

Standard

Low temperature afterglow from SrAl2O4 : Eu, Dy, B containing glass. / Vitola, V.; Lahti, V.; Bite, I.; Spustaka, A.; Millers, D.; Lastusaari, M.; Petit, L.; Smits, K.

julkaisussa: Scripta Materialia, Vuosikerta 190, 2020, s. 86-90.

Tutkimustuotosvertaisarvioitu

Harvard

Vitola, V, Lahti, V, Bite, I, Spustaka, A, Millers, D, Lastusaari, M, Petit, L & Smits, K 2020, 'Low temperature afterglow from SrAl2O4: Eu, Dy, B containing glass', Scripta Materialia, Vuosikerta. 190, Sivut 86-90. https://doi.org/10.1016/j.scriptamat.2020.08.023

APA

Vitola, V., Lahti, V., Bite, I., Spustaka, A., Millers, D., Lastusaari, M., ... Smits, K. (2020). Low temperature afterglow from SrAl2O4: Eu, Dy, B containing glass. Scripta Materialia, 190, 86-90. https://doi.org/10.1016/j.scriptamat.2020.08.023

Vancouver

Vitola V, Lahti V, Bite I, Spustaka A, Millers D, Lastusaari M et al. Low temperature afterglow from SrAl2O4: Eu, Dy, B containing glass. Scripta Materialia. 2020;190:86-90. https://doi.org/10.1016/j.scriptamat.2020.08.023

Author

Vitola, V. ; Lahti, V. ; Bite, I. ; Spustaka, A. ; Millers, D. ; Lastusaari, M. ; Petit, L. ; Smits, K. / Low temperature afterglow from SrAl2O4 : Eu, Dy, B containing glass. Julkaisussa: Scripta Materialia. 2020 ; Vuosikerta 190. Sivut 86-90.

Bibtex - Lataa

@article{c13c8153ba894ab19a788fe251614c7f,
title = "Low temperature afterglow from SrAl2O4: Eu, Dy, B containing glass",
abstract = "SrAl2O4: Eu, Dy, B particles were added in a phosphate glass (90NaPO3-10NaF (in mol{\%})) using the direct doping method. For the first time, the composition of the particles prior to and after embedding them in the glass was analysed using EPMA analysis. Boron was found to be incorporated in already distorted surroundings creating new trapping centers in the particles which are thought to be favourable for the tunnelling process and so for the afterglow at 10K. Despite the partial decomposition of the particles, the glass exhibit afterglow at low temperature confirming to be promising materials for low temperature applications.",
keywords = "Low temperature applications, Persistent luminescence, Phosphate glass",
author = "V. Vitola and V. Lahti and I. Bite and A. Spustaka and D. Millers and M. Lastusaari and L. Petit and K. Smits",
year = "2020",
doi = "10.1016/j.scriptamat.2020.08.023",
language = "English",
volume = "190",
pages = "86--90",
journal = "Scripta Materialia",
issn = "1359-6462",
publisher = "Elsevier",

}

RIS (suitable for import to EndNote) - Lataa

TY - JOUR

T1 - Low temperature afterglow from SrAl2O4

T2 - Eu, Dy, B containing glass

AU - Vitola, V.

AU - Lahti, V.

AU - Bite, I.

AU - Spustaka, A.

AU - Millers, D.

AU - Lastusaari, M.

AU - Petit, L.

AU - Smits, K.

PY - 2020

Y1 - 2020

N2 - SrAl2O4: Eu, Dy, B particles were added in a phosphate glass (90NaPO3-10NaF (in mol%)) using the direct doping method. For the first time, the composition of the particles prior to and after embedding them in the glass was analysed using EPMA analysis. Boron was found to be incorporated in already distorted surroundings creating new trapping centers in the particles which are thought to be favourable for the tunnelling process and so for the afterglow at 10K. Despite the partial decomposition of the particles, the glass exhibit afterglow at low temperature confirming to be promising materials for low temperature applications.

AB - SrAl2O4: Eu, Dy, B particles were added in a phosphate glass (90NaPO3-10NaF (in mol%)) using the direct doping method. For the first time, the composition of the particles prior to and after embedding them in the glass was analysed using EPMA analysis. Boron was found to be incorporated in already distorted surroundings creating new trapping centers in the particles which are thought to be favourable for the tunnelling process and so for the afterglow at 10K. Despite the partial decomposition of the particles, the glass exhibit afterglow at low temperature confirming to be promising materials for low temperature applications.

KW - Low temperature applications

KW - Persistent luminescence

KW - Phosphate glass

U2 - 10.1016/j.scriptamat.2020.08.023

DO - 10.1016/j.scriptamat.2020.08.023

M3 - Article

VL - 190

SP - 86

EP - 90

JO - Scripta Materialia

JF - Scripta Materialia

SN - 1359-6462

ER -