|Generate QR code
Open Access
Subscription Access
Low Temperature Thermoluminescence of Lithium Fluoride Nanocrystals and Crystals
https://doi.org/10.47612/0514-7506-2023-90-1-56-60
Abstract
Thermoluminescence spectra in the temperature range from 80 to 300 K were compared for lithium fluoride nanocrystals and crystals. It was shown that four and one bands are observed in the spectra of nanocrystals and crystals, respectively. Thermoluminescence intensities integrated over the spectrum and temperature range were measured for two types of lithium fluoride samples, in one of which it is possible, and in the other it is impossible to form radiation color centers with new properties. It was found that in the samples of the first type the intensity is significantly higher.
About the Authors
A. P. Voitovich
B. I. Stepanov Institute of Physics of the National Academy of Sciences of Belarus
Belarus
Belarus
Minsk
V. S. Kalinov
B. I. Stepanov Institute of Physics of the National Academy of Sciences of Belarus
Belarus
Belarus
Minsk
O. E. Kostik
B. I. Stepanov Institute of Physics of the National Academy of Sciences of Belarus
Belarus
Belarus
Minsk
References
1. S. W. S. McKeever. Thermoluminescence of Solids, Cambridge Un-ty Press, Cambridge (1985)
2. S. W. S. McKeever, M. Moskovitch, P. D. Townsend. Thermoluminescence Dosimetry Materials: Properties and Uses, Nuclear Technology Publishing, Ashford (1995)
3. A. Parisi, J. Dabin, W. Schoonjans, O. Van Hoey, P. Megret, F. Vanhavere. Radiat. Phys. Chem., 163 (2019) 67—73
4. E. Arzaga-Barajas, G. Massilon. Radiat. Meas., 146 (2021) 106635(1—6)
5. N. Salah, Z. H. Khan, S. S. Habib. Nucl. Instrum. Methods B, 267 (2009) 3562—3565
6. N. Salah. Radiat. Phys. Chem., 80 (2011) 1—10
7. A. K. Sharma, R. Dogra, S. K. Mishra, S. P. Lochab, R. Kumar. Sci. Adv. Mater., 4 (2012) 147—150
8. R. M. Montereali, A. P. Voitovich. In “Nano-Optics: Principles Enabling Basic Research and Applications”, Eds. B. Di Bartolo, J. Collins, L. Silvestri, Springer, Dordrecht (2017) 149—171
9. A. P. Voitovich, V. S. Kalinov, M. V. Korzhik, E. F. Martynovich, L. P. Runets, A. P. Stupak. Radiat. Eff. Def. Solids, 168 (2013) 130—136
10. A. P. Voitovich, V. S. Kalinov, P. A. Loiko, E. F. Martynovich, X. Mateos, A. N. Novikov, P. P. Pershukevich, L. P. Runets, J. M. Serres, A. P. Stupak. J. Lumin., 201 (2018) 57—64
11. A. P. Voitovich, O. V. Ignatenko, V. S. Kalinov, O. E. Kostik, V. V. Mashko, A. N. Novikov. Radiat. Eff. Def. Solids, 176 (2021) 529—537
12. A. N. Yazici, T. Karali, P. D. Townsend, M. Ari. J. Phys. D: Appl. Phys., 37 (2004) 3165—3173
13. B. Yang, L. Wang, P. D. Townsend, H. Gao. Nucl. Instrum. Methods B, 266 (2008) 2581—2586
Review
For citations:
Voitovich A.P., Kalinov V.S., Kostik O.E. Low Temperature Thermoluminescence of Lithium Fluoride Nanocrystals and Crystals. Zhurnal Prikladnoii Spektroskopii. 2023;90(1):56-60. (In Russ.) https://doi.org/10.47612/0514-7506-2023-90-1-56-60
Views: 164
Email this article 