Spectrally resolved thermoluminescence measurements in fluorescence spectrometer / Vokhmintsev A.S., Minin M.G., Henaish A.M.A., Weinstein I.A. // Measurement: Journal of the International Measurement Confederation. - 2015. - V. 66, l. . - P. 90-94.

ISSN:

02632241

Type:

Article

Abstract:

Registration of thermoluminescence (TL) spectra technique for irradiated samples in Perkin Elmer LS 55 spectrometer using developed high-temperature accessory during single heating cycle is shown. Functionality of serial instrument for RT-773 K temperature range is significantly widen. Spectrally resolved TL dependencies for h-BN micropowders and bulk AlN single crystals following UV irradiation are studied. TL spectral features of h-BN powders, synthesized by carbamide and plasma-chemical techniques, are determined and quantified. It is shown that the difference between TL curves obtained by the described and the standard modes does not exceed 10%. © 2015 Elsevier Ltd. All rights reserved.

Author keywords:

AlN single crystal; h-BN powder; High-temperature accessory; TL analysis; TL spectrometer

Index keywords:

Boron nitride; Single crystals; Spectrometers; AlN single crystals; Chemical techniques; Fluorescence spectrometers; High temperature; Irradiated samples; Spectral feature; Temperature range; UV irrad

DOI:

10.1016/j.measurement.2015.01.

Смотреть в Scopus:

https://www.scopus.com/inward/record.uri?eid=2-s2.0-84923260820&doi=10.1016%2fj.measurement.2015.01.012&partnerID=40&md5=7585d9fdd4e005a09e9e25d08915aabd

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Другие поля

Поле	Значение
Link	https://www.scopus.com/inward/record.uri?eid=2-s2.0-84923260820&doi=10.1016%2fj.measurement.2015.01.012&partnerID=40&md5=7585d9fdd4e005a09e9e25d08915aabd
Affiliations	Ural Federal University, NANOTECH Center, Mira Street, 19, Yekaterinburg, Russian Federation; Tanta University, Physics Department, Tanta, Egypt
Author Keywords	AlN single crystal; h-BN powder; High-temperature accessory; TL analysis; TL spectrometer
References	Chen, R., McKeever, S.W.S., (1997) Theory of Thermoluminescence and Related Phenomena, , World Scientific Publishing Singapore; Bøtter-Jensen, L., Thomsen, K.J., Jain, M., Review of optically stimulated luminescence (OSL) instrumental developments for retrospective dosimetry (2010) Radiat. Meas., 45, pp. 253-257; (2007) Thermo Scientific, , http://www.thermoscientific.com/content/dam/tfs/ATG/EPD/EPD%20Documents/Product%20Manuals%20%26%20Specifications/Radiation%20Measurement%20and%20Safety%20Products/Radiation%20Dosimeter%20Readers/D10469~.pdf, Harshaw 5500 Automatic Dosimetry Reader (accessed 24.12.14); Kortov, V.S., Aksel'Rod, M.S., Kil'Metov, A.K., Nikiforov, S.V., Gorelova, E.A., Mil'Man, I.I., Revenko, A.V., Thermoluminescence dosimetric system "sapfir-001" (1996) Defektoskopiya, 9, pp. 93-95. , (in Russian); Kulkarni, M.S., Mishra, D.R., Sharma, D.N., A versatile integrated system for thermoluminescence and optically stimulated luminescence measurements (2007) Nucl. Instrum. Methods Phys. Res. B, 262, pp. 348-356; Rodriguez, M.G., Denis, G., Akselrod, M.S., Underwood, T.H., Yukihara, E.G., Thermoluminescence, optically stimulated luminescence and radioluminescence properties of Al2O3: C, Mg (2011) Radiat. Meas., 46, pp. 1469-1473; Guérin, G., Lefèvre, J.-C., A low cost TL-OSL reader dedicated to high temperature studies (2014) Measurement, 49, pp. 26-33; Trinkler, L., Berzina, B., (2011) Advances in Ceramics - Characterization, Raw Materials, Processing, Properties, Degradation and Healing, , InTech (Chapter 4); Vokhmintsev, A.S., (2009) Thermoluminescence in the 2.4 EV Band Irradiated Aniono-defective Aluminum Oxide Single Crystals, , Ph.D Thesis, Ekaterinburg (in Russian); Perkin Elmer, L.S., (2007) 55 User's Guide, , http://www.perkinelmer.co.kr/files/LS%2055%20Users%20Guide%20-%2009934436.pdf, (accessed 24.12.14); Lowry, S., Allen, M.W., (2007) Characterizing Fluorescence and Phosphorescence from Plastic Samples Using the Lumina Fluorescence Spectrometer, , http://www.analiticaweb.com.br/newsletter/15/52182_amostra_solida_fluorescencia.pdf, Application Note: 52182 (accessed 24.12.14); (2012) Agilent Technologies, 1260 Infinity Fluorescence Detector User Manual, , http://www.chem.agilent.com/Library/usermanuals/Public/G1321-90012_FLD_USR_RevC_ENU.pdf, (accessed 24.12.14); Prakash, J., Mishra, A.K., Fabrication, optimization and application of a dip-probe fluorescence spectrometer based on white-light excitation fluorescence (2013) Meas. Sci. Technol., 24, p. 105502; Vokhmintsev, A.S., Minin, M.G., Ishchenko, A.V., Weinstein, I.A., (2013) Device for Studying the Luminescence Properties of Materials, RF Application for Invention 2013154203, , (in Russian); Vokhmintsev, A.S., Minin, M.G., Chaykin, D.V., Weinstein, I.A., A high-temperature accessory for measurements of the spectral characteristics of thermoluminescence (2014) Instrum. Exp. Tech., 57, pp. 369-373; (2014) National Instruments, NI PXI-6259 Data Sheet, , http://www.ni.com/datasheet/pdf/en/ds-22, (accessed 24.12.14); Nechepurenko, A.S., Shamrikov, V.M., Lasychenkov, Yu.Ya., Samun, S.V., Kislitsyn, V.I., (2005) Boron, its oxygen-free compounds and their application in up-to-date technology, Sbornik trudov FGUP UNIKHIM s OZ, 72, pp. 1-6. , (in Russian); Krasnokutskij, Yu., Vereshhak, V., (1987) Infusible Compounds Synthesis in Plasma, , Kiev (in Russian); Mokhov, E.N., Avdeev, O.V., Barash, I.S., Chemekova, T.Yu., Roenkov, A.D., Segal, A.S., Wolfson, A.A., Helava, H., Sublimation growth of AlN bulk crystals in Ta crucibles (2005) J. Cryst. Growth, 281, pp. 93-100; Weinstein, I.A., Vokhmintsev, A.S., Minin, M.G., Kartashov, V.V., Chernetsky, I.V., Spectral and kinetic features of thermoluminescence in hexagonal boron nitride powder after UV-irradiation (2013) Radiat. Meas., 56, pp. 236-239; Soltamov, V.A., Ilyin, I.V., Soltamova, A.A., Tolmachev, D.O., Mokhov, E.N., Baranov, P.G., Identification of nitrogen vacancies in an AlN single crystal: EPR and thermoluminescence investigations (2011) Phys. Solid State, 53, pp. 1186-1190; Weinstein, I.A., Vokhmintsev, A.S., Spiridonov, D.M., Thermoluminescence kinetics of oxygen-related centers in AlN single crystals (2012) Diam. Relat. Mater., 25, pp. 59-62; Balian, H.G., Eddy, N.W., Thermoluminescence glow-curve deconvolution functions for first, second and general orders of kinetics (1977) Nucl. Instrum. Methods, 145, pp. 389-395; Weinstein, I.A., Popko, E.A., Genetic synthesizing of band schemes for thermoluminescence in dosimetric crystals (2008) Radiat. Meas., 43, pp. 218-221
Correspondence Address	Vokhmintsev, A.S.; Ural Federal University, NANOTECH Center, Mira Street, 19, Russian Federation; email: a.s.vokhmintsev@urfu.ru
Publisher	Elsevier B.V.
CODEN	MSRMD
Language of Original Document	English
Abbreviated Source Title	Meas J Int Meas Confed
Source	Scopus