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2. G. Malovichko, V. Grachev, J. Jorgensen, M. Meyer, M. Munro, B. Todt, I. Vrable, E. Kokanyan, V. Bratus, S. Okulov, “Magnetic resonance study of non-equivalent centers created by 4f-ions in congruent and soichiometric lithium niobate”, Rare-Earth Doping of Advanced Materials for Photonic Applications, MRS Proceedings Vol. 1111. D01-03, 12 stron, DOI: 10.1557/PROC-1111-D01-03 3. G. Malovichko, V. Bratus, V. Grachev, E. Kokanyan, „Elektron paramagnetic resonance and elektronnuclear double resonance of nonequivalent Yb 3+ center In stoichiometric lithium niobate”, Phys. Stat. Solidi B 246 (2009) 215-225 4. P.H. Muzhikyan, “Photoluminescence of LiNbO3 crystals doped with Er 3+ and Yb 3+ ions”, Journal of Contemporary Physics 46 (1) (2011) 17-22 5. P.H. Muzhikyan, “Photoluminescence of LiNbO3 crystals doped with Er 3+ and Yb 3+ ions”, Izvestia NAN Armenia, Fizyka, 46(1) (2011) 28-35 6. T. Bodziony, Hability, Szczecin West Pomeranian University of Technology, Politechnika Gdańska, Gdańsk, 2010 7. Babajanyan, V.G., Kostanyan, R.B., Muzhikyan, P.H., Sargsyan, R.V., “Dependences of upconversional luminescence of LiNbO3:Yb 3+ , Er 3+ crystals on pump intensity”, Proc. SPIE 7998 (2011) 799806 8. Yannan Qian, Rui Wang, Biao Wang, Chao Xu, Wei Xu, Xiaohong Wu, Yanling Xu, Lili Xing, Chunhui Yang, “Growth of Zr codoped Er:LiNbO3 and Er/Yb:LiNbO3 single crystal”, J. Cryst. Growth 361 (2012) 85-88 9. Tao Yan, Yonggui Yu, Yongjie Guo, Yuanhua Sang, Hong Liu, Shangqian Sun, Min Xu, Jiyang Wang, Liuwen Chang, Mitch M.C. Chou , “Growth, structural, optical and thermal properties of Yb-doped and Yb-Mg codoped LiNbO3 single crystals”, J. All. & Comp., 564 (2013) 1-7, http://dx.doi.org/10.1016/j.jallcom.2013.01.177 34 - Tomaszewicz E., Typek J., Kaczmarek S.M.., “Synthesis, characterization and thermal bahaviour of new copper and rare-earth metal tungstates. J Therm Anal Calorim. 2009;98:409–421. 1. E. Tomaszewicz, “New praseodymium(III) and d-electron metals tungstates of the formula MPr2W2O10(M=Mn, Co, Cd)”, Journal of Thermal Analysis and Calorimetry, Volume 93, Issue 3, September 2008, Pages 711-715 2. E. Filipek, M. Piz, “The reactivity of SbVO5 with T-Nb2O5 in solid state in air”, J. Therm. Anal. Calorim., 101(2) (2010) 447-453 3. P. Tabero, “Formation and properties of the new Al8V10W16O85 and Fe82xAlxV10W16O85 phases with the M–Nb2O5 structure”, J. Therm. Anal. Calorim., 101(2) (2010) 561-566 4. E. Tomaszewicz, „Nowe, proste oraz mieszane molibdeniany(VI) i wolframiany(VI) pierwiastków d- i felektronowych”, Hability, Szczecin WUT, 2010 5. Fatih Mehmet Emen, Ramazan Altinkaya and Nevzat Kulcu, “Synthesis, characterization and Luminescence Properties of Sr3WO6:Eu 3+ Phosphor”, Advances in Applied Physics &Materials Science Congress, APMAS 2011, Antalia, Turkey, 12-15 May 2011 6. D.J. Jovanovic, I.Lj. Validzic, M. Mitric and J.M. Nedeljkovic, “Synthesis and Structural Characterization of Nano-sized Copper Tungstate Particles”, Acta Chim. Slov. 2012, 59, 70–74 7. P Urbanowicz, E Tomaszewicz, T Groń, H. Duda, S. Mazur, Z. Kukuła, S. Pawlus, T. Mydlarz, J. Krok- Kowalski, „Electrical and magnetic properties of CuEu2W2O10 oraz Cu3Eu2W4O18”, Solid State Phen. 194 (2013) 104-107 8. E. Tomaszewicz, H. Fuks, J. Typek, „Thermal stability and magnetic properties of new copper and rareearth molybdates”, 15-th International Congress on Thermal Analysis and Calorimetry, 48-th Japanese Conference on Calorimetry and Thermal Analysis, Higashi-Osaka, Japan 20-24.08.2012, PS_27 9. Veronika Blovska, Petr Beˇlina, Petra Sulcova, „Synthesis of tungstate pigments of the formula MNd2W2O10 (M = Ni, Zn, Mn)”, J Therm Anal Calorim, DOI 10.1007/s10973-013-3129-9 35...S.M. Kaczmarek, „Role of the type of impurity in radiation susceptibility of oxide compounds”, Cryst. Res. & Techn., 34 (5-6), pp. 737-744, 1999 1. J.A. Mares, M. Nikl, E. Mihokova, N. Solovieva, K. Blazek, K. Nejezchleb, P. Maly, J. Pejchal, V. Mucka, M. Pospisil, A. Vedda, M. Martini, S. Baccaro, „Radiation induced colour centers and damage in YalO3:Ce and YalO3:Ce, Zr scintillators“, Rad. Eff. Def. in Solids, 157 (6-12) (2002) 677- 681
2. M. Sulc, M. Nikl, M. Vognar, K. Nejezchleb, K. Blazek, „Kinetics of induced absorption phenomena in YAlO3:Ce scintillator“, Rad. Eff. Def. In Solids, 157 (6-12) (2002) 963-968 3. Y. Dong, G. Zhou, J. Xu, G. Zhao, F. Su, L. Su, H. Li, J. Si, X. Qian, X. Li, K. Shen, “Color centers and charge state recharge in -irradiated Yb:YAP”, Opt. Mat. 28 (2006) 1377-1380 4. A. Katelnikovas, T. Justel, D. Uhlich, J-E. Jorgensen, S. Sakirzanovas, A. Kareiva, „Characterization of cerium-doped yttrium aluminum garnet nanopowders synthesized via sol-gel process“, Chem. Eng. Commun. 195 (7) (2008) 758-769 5. Govindhan Dhanaraj,Kullaiah Byrappa,Vishwanath Prasad, Hongjun Li, Jun Xu, Springer Handbook of Crystal Growth, Crystal Growth of Laser Host Fluorides and Oxides, 2010, Part B, 479-507, DOI: 10.1007/978-3-540-74761-1_15 6. P. Potera, T. Łukasiewicz, M. Świrkowicz, “WPŁYW PROMIENIOWANIA JONIZUJĄCEGO NA WŁASNOŚCI OPTYCZNE WYBRANYCH KRYSZTAŁÓW TYPU ABO3”, Mat. Elektron, 37 (1) (2009) 5-58 7. Stephanie L. Weeden-Wright, „RADIATION INDUCED EFFECTS ON PHOSPHOR POWDER PHOTOLUMINESCENCE”, Thesis Submitted to the Faculty of the Graduate School of Vanderbilt University in partial fulfillment of the requirements for the degree of MASTER OF SCIENCE in ELECTRICAL ENGINEERING May, 2012, Nashville, Tennessee, USA 8. S. L. Weeden-Wright, S. L. Gollub, R. Harl, A. B. Hmelo, D. M. Fleetwood, B. R. Rogers, R. D. Schrimpf, and D. G. Walker, “Radiation Effects on the Photoluminescence of Rare-earth Doped Pyrochlore Powders”, StephanieWeedenWright_TNS_ver3.doc, 5pp., Manuscript received September 28, 2012. This work was supported in part by the Defense Threat Reduction Agency (DTRA) under the Grant HDTRA1-10-1-0112. http://telab.vuse.vanderbilt.edu/docs/StephanieWeedenWright_FINAL.pdf https://docs.google.com/viewer?a=v&q=cache:17Uait0AjvwJ:telab.vuse.vanderbilt.edu/docs/Stephanie WeedenWright_TNS_ver3.pdf+S.M.+Kaczmarek+luminescence&hl=pl&gl=pl&pid=bl&srcid=ADGE ESimj49nZeLaIagy6_ZWvmbKV1NiYfZ2RrV3Q5Mu5TwiR1taEGkN8sAdw6AJ6Q8L0K6qdWTe4fb nYlsrKm5BZE_Dx2BXzBy4rdU91475TLTpzGDyJfa0aG- VEDyWADf1309fJhah&sig=AHIEtbSFJ0pWIY3k5ufqibtnJ1Mi3aIz7Q 36.....E. Michalski, M. Demianiuk, S.M. Kaczmarek, J. Żmija, "Analysis of the effect of dopant concentration on ZnS crystal structure based on the shape of the stacking faults energy vs hexagonality function", Acta Phys. Polonica, A56, pp. 333-345, 1979 1. E. Michalski, „Badania struktur politypowych i nieuporządkowanych w domieszkowanych kryształach wybranych związków półprzewodnikowych z grupy A II B VI ”, Thesis, Warszawa, Wojskowa Akademia Techniczna, 1981, pp. 201 2. I.T. Steinberger, Polytypism in zinc sulfide, Progress in Crystal Growth and Characterization, Volume 7, Issues 1-4, 1983, Pages 7-54 3. E. Michalski, „The diffraction of X-rays by close packed polytypic crystals containing single starking faults. 1. General Theory”, Acta Crystall. 44 (5) (1988) 640-649 4. M.T. Sebastian, P. Kriszna, „Random, non-random, and periodic faulting in crystals”, Gordon and Breach Science Publishers, 1994, ISBN 2881249256, 9782881249259, Liczba stron: 383 5. E. Michalski, M. Demianiuk, “X-ray powder diffraction study of some dopants positions in unit cells of chosen A II B VI compounds crystals”, Proc. SPIE, v. 2373 (1995) 283 6. E. Michalski, W. Piecek, M. Demianiuk, „The diffraction of X-rays by close packed polytypic crystals containing single starking-faults. 3. Measurements of diffraction effects caused by stacking-faults in plate or film form samples”, Acta. Crystall. A 51 (4) (1995) 548-558 7. W. Paszkowicz, P. Dłużewski, Z.M. Spolnik, F. Firszt, H. Meczynska, „Formation of 4H and 8H polytypes In bulk Zn1-xMgxSe crystals”, J. All. Comp. 286 (1999) 224-235 8. Z. Liliental-Weber, M. E. Hawkridge, X. Wang, and A. Yoshikawa, “Structural differences in Mg-doped InN – indication of polytypism”, Phys. Stat. Sol. C 7(7/8) (2010) 2025-2028 37…S.M. Kaczmarek, G. Boulon, „The presence of different oxidation states of cations in optical hosts on the base of Co: SrLaGa3O7”, Optical Materials, 24 (2003) 151-162 1. Ch. Pedrini, „Scientific raport d’activite 2002-2005”, UMR CNRS No5620 Laboratoire de physicochimie des Materiaux luminescents, (2005), pp. 190 2. J. Barbier, N. Penin, L. Cranswick, “Melilite-type borates Bi2ZnB2O7 and CaBiGaB2O7”, Chem. Mater. 17 (2005) 3130-3136
Page 1 and 2: Publikacje cytowane średnio 10 raz
Page 3 and 4: 40. Young-Hwan Cho, Tack-Jin Kim, Y
Page 5 and 6: Engineering, Shaanxi University of
Page 7 and 8: 48. Ying Guan, Zhihao Wei, Yanlin H
Page 9 and 10: 4. E. Michalski, S.M. Kaczmarek, M.
Page 11 and 12: 7. Quanhe Bao, Ch. Chen, Diangang W
Page 13 and 14: 22. C. Soliman, “Neodymium oxide:
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Page 19 and 20: 16. Zongyuan Liu, Sheng Liu, Kai Wa
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Page 25 and 26: Mn 2+ - activated zinc gallate phos
Page 27 and 28: 12. Ratas Arno, DISSERTATIONES CHIM
Page 29 and 30: 4. Guo Zhicheng, Dong Huining, Deng
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Page 33 and 34: 3. A. Twardowski, C.J.M.Denissen, W
Page 35: 3. Zhao Ya-Ru, Gao Ming-Liang, Li Y
Page 39 and 40: 2 - Anonymous , “Study findings f
Page 41 and 42: 7. M.A. Ahlam and A. P. Gnana Praka
Page 43 and 44: 3. Yoichi Sato, Takunori Taira, Osa
Page 45 and 46: 4. Ya.A. Zhydachevskii, A.O. Matkov
Page 47 and 48: 1. E. Michalski, „Badania struktu
Page 49 and 50: 3 - P. Urbanowicz, Rozprawa doktors
Page 51 and 52: 3. Z. Mierczyk, “Nieliniowe absor
Page 53 and 54: 3 - Z. Kukuła, E. Tomaszewicz, S.
Page 55 and 56: 1. M. Wiśniewska, A.J. Wojtowicz,
Page 57 and 58: 1. Z. Mierczyk, „Nieliniowe absor
Page 59 and 60: 1. D. Piwowarska, Praca doktorska:
Page 61 and 62: 148 - S.M.Kaczmarek, J.Wojtkowska,
Page 63: INGS OF THE SPIE - THE INTERNATIONA

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