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A. Antuzevics, A. Fedotovs and U. Rogulis

.F. (2006). A study of the intrinsic defects in LiYF 4 with extended-ion method. Solid State Communications, 140 , 107-111. 4. Fedotovs, A., Dimitrocenko, L., & Rogulis, U. (2006). EPR of radiation defects in LiYF 4 crystals. Proceedings of the Intern. Conf. on Inorganic Scintillators and their Industrial Applications, SCINT2005 . Alushta (the Ukraine), 162-164. 5. Minisini, B., Wang, Q.A., & Tsobnang, F. (2005). Ab initio investigation of lattice dynamics of fluoride scheelite LiYF 4 . Journal of Physics: Condensed Matter, 17, 1

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Joanna Babińska, Krystyna Dyrek and Piotr Wyszomirski

References ADAMSKI, A., SPAŁEK, T., SOJKA, Z., 2003: Application of EPR spectroscopy for elucidation of vanadium speciation in VO x \ZrO 2 catalysts subjected to redox treatment. Research on Chemical Intermediates 29, 793-804. ALLARD TH., MULLER, J.-P., 1998: Kaolinite as in situ dosimeter for past radionuclide migration at the Earth's surface. Applied Geochemistry 13, 751-765. ALLARD Th., MULLER, J.-P., DRAN, J.-C., MENAGER, M.-T., 1994: Radiation induced paramagnetic defects

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Grzegorz Leniec, Sławomir M. Kaczmarek, Marek Berkowski, Michał Głowacki, Tomasz Skibiński and Bohdan Bojanowski

. J. Cryst. Growth , 167 , 369–372. DOI: 10.1016/0022-0248(96)00407-1. 4. Guillot-Noel, O., Simons, D., & Gourier, D. (1999). EPR study of the multisite character of Nd 3+ ions in zircon-type matrices YMO 4 (M = V, P, As). J. Phys. Chem. Solids , 60 , 555–565. DOI: 10.1016/S0022-3697(98)00299-6. 5. Misra, S. K., Isbe, S., Capobianco, J. A., & Cavalli, E. (1999). Electron paramagnetic resonance of Er 3+ doped in YVO 4 : hyperfine parameters. Chem. Phys ., 240 , 313–318. DOI: 10.1016/S0301-0104(98)00393-0. 6. Will, G., Lugscheider, W., Zinn

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Ahmed M. Maghraby, A. Mansour and A. A. Abdel-Fattah

References 1. Bradshaw, W. W., Cadena, D. G., Crawford, G. W.. & Spetzler, H. A. W. (1962). The use of alanine as a solid dosimeter. Radiat. Res., 17, 11-21. 2. Guidelli, E. J., Ramos, A. P., Zaniquelli, M. E. D., Nicolucci, P., & Baffa, O. (2012). Synthesis of silver nanoparticles using DL-alanine for ESR dosimetry applications.Radiat. Phys. Chem., 81(3), 301-307. 3. Nagy,V., & Desrosiers, M. (1996) Complex time dependence of the EPR signal of irradiated L-α-alanine. Appl.Radiat. Isot., 47, 789

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Volodymyr Popovych, Mariusz Bester, Ireneusz Stefaniuk and Marian Kuzma

., & Kuzma, M. (2008). Ferromagnetic resonance in CdCrTe solid solution. J. Phys.-Conf. Ser. , 104 , 012010. DOI: 10.1088/1742-6596/104/1/012010. 11. Sreenivasan, M. G., Bi, J. F., Teo, K. L., Liew, T. J. (2008). Systematic investigation of structural and magnetic properties in molecular beam epitaxial growth of metastable zinc-blende CrTe towards half-metallicity. J. Appl. Phys ., 103 , 043908. 12. Kuzma, M., Stefaniuk, I., & Bester, M. (2010). Theoretical models and EPR study of Cr based diluted magnetic semiconductors. J. Phys.-Conf. Ser. , 213

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Grzegorz P. Guzik, Wacław Stachowicz and Jacek Michalik

. Vanhaelewyn, G., Jansen, B., Callens, F. J., & Sagstuen, E. (2004). ENDOR - Assisted study of the stable EPR spectrum of X-irradiated α-L-Sorbose single crystals: MLCFA and simulation decomposition analyses. Radiat. Res., 162, 96-104. 11. Vanhaelewyn, G., Sadło, J., Callens, F., Mondelaers, W., Frenne, D., & Matthys, P. (2000). A decomposition study of the EPR spectrum of irradiated sucrose. Appl. Radiat. Isot., 52, 1221-1227. 12. Guzik, G. P., Stachowicz, W., & Michalik, J. (2008). Study on stable radicals produced by ionising radiation in

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Grzegorz P. Słowik and Andrzej B. Więckowski

References 1. Szroeder, P., Rozpłoch, F., & Marciniak, W. (2003). Two-temperature EPR measurements of multi-walled carbon nanotubes. Solid State Phenom ., 94 , 275–278. http://www.scientific.net . 2. Rozpłoch, F. (1984). Negative magnetoresistivity in pyrolytic coal . Habilitation thesis, Nicolaus Copernicus University, Toruń, Poland. 3. Pilawa, B. (2000). Evolution of paramagnetic centers during thermal decomposition of coal macerals. Habilitation thesis, Pedagogical University, Zielona Góra, Poland. 4. Duber, S., & Więckowski, A. B

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Paweł Ramos and Barbara Pilawa

: Elementary theory and practical application . New York: Chapman and Hall. 9. Skowrońska, A., Wojciechowski, M., Ramos, P., Pilawa, B., & Kruk, D. (2012). ESR studies of paramagnetic centers in pharmaceutical materials – cefaclor and clarithromycin as an example. Acta Phys. Pol. A , 121 (2), 514–517. 10. Ramos, P., Pilawa, B., & Adamski, M. (2014). Application of EPR spectroscopy for examination of thermally formed free radicals in drotaverine. Ann. Acad. Medicae Silesiensis , 68 (1), 28–37 (in Polish). 11. Ramos, P., Pilawa, B., Krztoń, A., & Liszka

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Jarosław Sadło, Anna Bugaj, Grażyna Strzelczak, Marcin Sterniczuk and Zbigniew Jaegermann

References 1. Ikeya, M. (Ed.) (1993). Application of electron spin resonance – dating, dosimetry and microscopy (Chapter 5). Singapore: World Scientific. 2. Weihe, H., Piligkos, S., Barra, A. L., Laursen, I., & Johnsen, O. (2009). EPR of Mn 2+ impurities in calcite: a detailed study pertinent to marble provenance determination. Archaeometry , 51 , 43–48. 3. Callens, F., Vanhaelewyn, G., Matthys, P., & Boesman, E. (1998). EPR of carbonate derived radicals: Applications in dosimetry, dating and detection of irradiated food. Appl. Magn

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Grzegorz P. Guzik and Wacław Stachowicz

. Top. Biophys., 33(Suppl. A), 81-85. 11. Vanhaelewyn, G., Jansen, B., Callens, F. J., & Sagstuen, E. (2004). ENDOR - assisted study of the stable EPR spectrum of X-irradiated α-L-sorbose single crystals: MLCFA and simulation decomposition analyses. Radiat. Res., 162, 96-104. 12. Kączkowski, J. (1993). Biochemia roślin (Vol. 2). Warszawa: Wydawnictwo Naukowe PWN. 13. Glaser, D. (2002). Specialization and phyletic trends of sweetness reception in animals. Pure Appl. Chem., 74(7), 1153-1158. 14. Collins, P