Wpływ promieniowania jonizującego na własności optyczne wybranych kryształów typu ABO3

Potera, P.; Łukasiewicz, T.; Świrkowicz, M.

Artykuł - szczegóły

Tytuł artykułu

Wpływ promieniowania jonizującego na własności optyczne wybranych kryształów typu ABO3

Autorzy

Potera P. , Łukasiewicz T. , Świrkowicz M.

Treść / Zawartość

Pełne teksty:

httpwww_bg_utp_edu_plartme20nr12009me12009potera.pdf

Pobierz

Identyfikatory

Warianty tytułu

Ionizing radiation effect on optical properties of some ABO3 crystals lithium niobate (LN) and yttrium alumina (YAP)

Języki publikacji

Abstrakty

Praca stanowi syntetyczne ujęcie zagadnień związanych z kompleksowymi badaniami wpływu promieniowania (kwanty gamma, UV, elektrony, szybkie neutrony) na własności optyczne niedomieszkowanych i domieszkowanych wieloskładnikowych kryształów tlenkowych typu ABO3, otrzymanych w ITME: perowskitu itrowo-glinowego i niobianu litu. Zmiany własności optycznych tych kryształów wkutek napromieniowania są wynikiem powstawania centrów barwnych, zarówno poprzez zmianę stanu ładunkowego defektów wzrostowych jak i tworzenia się defektów radiacyjnych w wyniku przemieszczenia atomów.

Comprehensive results of researches about influence of gamma quanta, UV, electrons and fast neutrons radiation on optical properties of undoped and doped multicomponents oxide single crystals ABO3 type: yttrim alumina perovskit (YAP) and lithium nobate (LN). Changes of optical properties as effect of radiation are result of colour centre creation by means of electric charge in genetic defects changes or creation of radiation defects with displacement.

Słowa kluczowe

kryształ tlenkowy ABO3 własności optyczne

oxide crystal ABO3 optical properties

Wydawca

Sieć Badawcza Łukasiewicz - Instytut Technologii Materiałów Elektronicznych

Czasopismo

Materiały Elektroniczne

Rocznik

2009

Tom

T. 37, nr 1

Strony

5--58

Opis fizyczny

Bibliogr. 119 poz., rys., wykr.

Twórcy

autor

Potera P.

autor

Łukasiewicz T.

autor

Świrkowicz M.

Instytut Fizyki, Uniwersytet Rzeszowski, ul. Rejtana 16A, 35-959, Rzeszów

Bibliografia

[1] Kaminski A.A.: Laser crystals, their physics and properties, Springer-Verlag Berlin, 1990
[2] Kuźminov Ju.S: Elekctroptičeskij i neunejno-optičeskij kristall niobata litija, „Nauka” Moskwa, 1987
[3] Dmitrev V. G., Gurradyan G. G., Nigogosyan D. N.: Handbook of nonlinear optical crystals, Springer-Verlag Berlin, 1991
[4] Globus M. E., Grinev B.V.: Neorganičeskie scintiljatory: novye i tradicionnye materialy, “Akta” Charków, 2000
[5] Kaminski A. A.: Crystalline lasers - physical processes and operating schemes, “CRC Press, Boca Raton” New York, London, Tokyo, 1996
[6] Noginov M. A., Noginova N., Curley M., Kukhtarev N., Caulfield H. J., Venkatesvarlu P.: Optical characterization of Mn : YAlO3 material for holographic recording and data storage, J. Opt. Soc. Am. B. 15(5), (1998), 1463-1467
[7] Loutts G. B., Warren M., Taylor L., Rakhimov V, Ries H. R., Miller G., Noginov M. A., Curley M., Noginova N., Kukhtarev N., Caulfield H. J., Venkateswarlu P.: Manganese - doped yttrium orthoaluminate: potential material for holographic recording and data storage, Phys. Rev. B 57(7), (1998), 3706-3709
[8] Mares J. A., Cechova N., Nikl M., Kvapil J., Kratky R., Pospisil J.: Cerium doped RE3+: AlO3 perovskite scintillators: spectroscopy and radiation induced defects, J. Alloys and Comp. 275-277, (1998), 200-204
[9] Slunga E., Cederwall B., Ideguchi E., Kerek A., KlamraW., J. van der Marel, Novak D., Norlin L. O.: Scintillation response of BaF2 and YAlO3:Ce (YAP:Ce) to energetic ions, Nucl. Instr. & Meth. Phys. Res. A 469, (2001), 70-76
[10] Wojtowicz A. J., Glodo J.,Lempicki A., Brecher C.: Recombination and scintillation processes in YAlO3:Ce, J.Phys. Condens. Matter., 10, (37), (1998), 8401-8415
[11] Baccaro S., Blazek K., F. De Notaristefani, Maly P., Maresh J. A., Pani R., Pallegrini R., Sulori A.: Scintillation properties of YAP:Ce, Nucl. Instr. & Meth. Phys. Res. Accelerators Spectrometers Detectors & Associated Equipment, 361, (1-2), (1995), 209-215
[12] Lee M., Takekawa S., Furukawa Y, Kitamura K., Hatano H., Tanaka S.: Nonvolatile two-color holographic recording in Tb-doped LiNbO3, Appl. Phys. Letters, 76, (13), (2000), 1653-1655
[13] Adibi A., Buse K., Psaltis D.: Two-center holographic recording, J. Opt. Soc. Am. B, 18, (5), (2001), 584-601
[14] Buse K., Jerman F., Kratzing E.: Infrared holographic recording in LiNbO3:Fe and LiNbO3:Cu, Optical Materials, 4, (1995), 237-240
[15] Ross G. W., Pollnau M, Smith P. G. R., Clarkson W. A., Brirton P. E., Hanna D.C.: Generation of high-power blue light in periodically poled LiNbO3, Opt. Lett., 23, (3), (1998), 171-173
[16] Myers L., Eckardt R. C., Fejer M., Byer R. L., Bosenberg W. R., W.Pierce J.W.: Quasi-phase-matched optical parametric oscillators in bulk periodically poled LiNbO3, J.Opt. Soc. Am. B, 12, (1995), 2102-2116
[17] Sohler W.: Erbium-doped lithium niobate waveguide devices, IEEE Lasers andElectro-Optics Society, 2, (1995), 283-284
[18] Lallier E., Pachole J. P., Papuchon M., Micheli M., Li M. J., He Q., Ostrowsky D.B., Grezes-Besset C., Pelletier E.: Nd:MgO:LiNbO3 waveguide laser and amplifier, Opt. Lett., 15, (12), (1990), 682-684
[19] Amin J., Aust J. A., Veasey D. L., Sanfard N. A.: Dual wavelength 980 nm pumped Er/Yb-codoped waveguide laser in Ti:LiNbO3, Electron. Lett., 34, (5), (1998), 456-458
[20] Bermudez V., Campany J., Garcia-Sole J., Dieguez E.: Growth and second harmonic generation characterization of Er3+ doped bulk periodically poled LiNbO3, Appl. Phys. Lett., 73, (5), (1998), 593-595
[21] Jaque D., Sanz-Garcia J. A., Capmany J., Garcia Sole J.: Continuous wave laser radiation at 693 nm from LiNbO3:ZnO:Nd3+ nonlinear laser crystals, Appl. Phys. B, Laser and Optics B, 70, (2000), 483-486
[22] Li R., Wang Ch, J., Liang X., Peng K., Xu G.: CW Nd:Mg:LiNbO3 self-frequency-doubling laser at room temperature, IEEE J. Quantum Elect., 29, 9, (1993), 2419-2420
[23] Brioschi F., Caridi A., Cereda E., Marcazzan G. M., Zanzottera E.: Radiation effects on laser crystals for space applications, Nucl. Instr. & Meth. Phys. Res. B - Beam Interactions with Materials & Atoms B, 66, 3, (1992), 357-360
[24] Rose T. S., Hopkins M. S., Fields R. A.: Characterization and control gamma and proton radiation effects on the performance of Nd:YAG and Nd:YLF lasers, IEEE J. Quantum Elect., 31, 9, (1995) 1593-1602
[25] Ashurov M. Kh., Naselski S. P., Rustamov I. R., Smirnov V. A., Umyskov A. E, Shcherbakov I. A.: Influence of the spectral composition of the pump radiation on the lasing and the spectral-luminescence characteristics of a YAP:Nd, Sov. J. Quantum Elect., 20, 11, (1990), 1353-1356, Kvant. Elektronika, 17, 11, (1990), 1445-1448
[26] Sugak D., Matkovskii A., Durygin A., Suchocki A., Solski I., Ubizskii S., Kopczyński K., Mierczyk Z., Potera P.: Influence of color centers on optical and lasing properties of the gadolinium gallium garnet single crystal doped with Nd3+ ions, J. Luminescence, 82, (1999), 9-15
[27] Harada M., Sukurai K., Saitoh K., Kishimoto S.: Fast signal processing of yttrium-perovskite:Ce detector for synchrotron x-ray experiment, Review Sci. Instr., 72, 11, (2001), 4308-4311
[28] Fyodorov A. A., Trower W. P., Zuevsky R. F., A broad range YAP-plastic photoswitch dosimeter, Nucl. Instr. & Meth. in Phys. Res. B, 134, (1998), 413-417
[29] Lee M., Takekawa S., Furukawa Y., Kitamura K., Hatano H.: Quasinondestructive holographic recording in photochromic LiNbO3, Phys. Rev. Letts, 84 (5), (2000), 875-878
[30] Matkovskij A. O., Sutak D.Ju., Uzbizskij S. B., Spotjuk O. I., Černyj E. A., Vakiv I.M., Morkichij V A.: Vozdejstvie ioniziarajuščich izlučenij na materialy elektronnoj techniki, “Svit” Lwów, 1994
[31] Gafurov V. G., Kučerov V. I.: Uprugie i pezoelektričeskie svojstva oblučennogo niobata litija, Fizika Tverdego Tela, 28, 7, (1986), 2264-2266
[32] Ishikawa N., Iwase A., Chimi Y, Michikami O., Wakana H., Kambara T.: Defekt production induced by primary ionization in ion-irradiated oxide superconductors, J. Phys. Soc. of Japan, 69, 11, (2000), 3563-3575
[33] Švarc K. K., Ekmanis Ju. A.: Delektričeskie materialy: radiaconnye processy i radio-cionnaja stokost’, Zinatne, Riga, 1989
[34] Mironova NA., Ulmanis U. A.: Radioconnyje defekty i iony metallov grupy zeleza i oksidach, Zinatne, Riga, 1988
[35] Abe H., Yamamoto S., Naramoto H.: Amorphization in aluminium oxide induced by ion irradiation, Nucl. Instr. & Meth. Phys. Res. B, 127-128, (1997), 170-175
[36] Konings R. J. M., Bakker K., Boshoven J. G., Conrad R., Hein H.: The influence of neutron irradiation on the microstructure of A12O3, MgAl2O4, Y3A15O12 and CeO2, J. Nucl. Materials, 254, (1998), 135-142
[37] Yasuda K., Kinoshita Ch., Ohmura M., Abe H.: Production and stability of dislocation loops in an MgO-Al2O3 system under concurrent irradiation with ions and electrons, Nucl. Instr. & Meth. Phys. Res. B, 166-167, (2000), 107-104
[38] Matkovski A., Durygin A., Suchocki A., Sugak D., Neuroth G., Wallrafen E, Grabovski V., Solski I.: Photo and gamma induced color centers in the YA1O3 and YA1O3: Nd single crystals, Optical Materials, 12, (1999), 75-81
[39] Sugak D., Matkovskii A., Savitskii D., Durygin A., Suchocki A., Zhydachevskii Y, Solskii I., Stefaniuk I., Wallrafen E: Growth and induced color centers in YAlO3:Nd single crystals, Phys. Stat. Sol. (a), 184, 1, (2001), 239-250
[40] Ryabov A. I., Pirogova G. N., Kritskaya V. E., Stelmakh N. S., Sorokin V. M., Ermakov G. A., Akkerman V. A.: Effect of heat treatment on the radiation-optical properties of yttrium aluminate, Inorganic Materials (USA), 28, 1, 1992, 146-149 [Neorganiceskie Materialy], 28, 1, (1992), 178-181
[41] Arizmendi L., Cabrera J. M., Agullo-Lopez R: Defects induced in pure and doped LiNbO3 by irradiation and thermal reduction, J. Phys C. Solid State Phys., 17, (1984), 515-529
[42] Volk T. R., Rubinina N. M.: X-ray and UV influence on the optical absorption spectra of the non-photorefractive lithium niobate, Phys. Stat. Sol. (a), 108, 1988, 437-442
[43] Kaczmarek S. M.: Stability investigations of pure and doped with Cu, Fe and Cr ions lithium niobate single crystals for optical applications, Biuletyn WAT, 50, 6, (2001), 21-34
[44] Sulc M., Nikl M., Vognar M., Nejezchleb K., Blazek K.: Kinetics of induced absorption phenomena in YAlO3:Ce scintillators, Radiation Effects and Defects in Solids, 157, (2002), 963-968
[45] Sorescu M., Barrie J. D., Martin J. J., Knobe E. T.: Modification of structural and optical properties of iron-doped lithium niobate by pulsed excimer laser irradiation, Solid State Comm. 94, 5, (1995), 407-411
[46] Lin L., Lehui Z., Zulun W., Xiaotian Q.: Investigation on crystal growth and color center of substituted garnet crystals, Mater. Res. Bull, 24, 8, (1989), 1011-1016
[47] Vasylechko L., Matkovskii A., Savytskii D., Suchocki A., Walraffen R: Crystal structure of GdFeO3-type rare earth gallates and aluminates, J. Alloys & Comp., 291, (1999), 57-65
[48] Geller S., Wood E. A.: Crystalographic studies of perovskite-like compounds. Rare earth orthoferrites and YFeO3, YCrO3, YA1O3, Acta Crystallogr., 9, (1956), 563-568
[49] Diehl R., Brant G.: Crystal structure refinement of YA1O3 a promising laser material, Mater. Res. Bull. 10, (1975), 85-90
[50] Matkowski A., Potera P.: Tlenkowe materiały laserowe, Wydawnictwo Uniwersytetu Rzeszowskiego, Rzeszów, 2006
[51] Kvapil J., Kvapil J., Perner B., Manek B., Blazek K., Hendrich Z.: Nonstoichiometric defect in YAG and YAP, Cryst. Res. Techno!., 20, 4, (1985), 473-478
[52] Cockayne B., Lent B., Abel J. S., Harris I. R.: Cracking in yttrium orthoaluminate single crystals, J. Mater. Sci. 8, (1973), 871-875
[53] Gansheng L., Xibin G., Jian L., Zhenzhu S., Jinhua W., Ying Ch., Jinfeng Ch.: Application of several new procedures to improve the quality of Czochralski grown Nd3+: YA1O3 crystals, J.Cryst. Growth, 118, (1992), 371-376
[54] Gansheng L., Zhenzhu S., Xibin G., Jinhua W., Ying Ch., Jinfeng Ch.: Growth and characterization of high-quality Nd3+: YAP laser crystals, J.Cryst. Growth, 106, (1990), 524-530
[55] Savitskii D., Vasylechko L., Matkovskii A., Solskii L, Sugak D., Suchocki A., Wallrafen R: Growth and properties of YAlO3:Nd single crystals, J. Cryst. Growth 209, 4, (2000), 874-882
[56] Neuroth G., Wallrafen R: Czochralski growth and characterisation of pure and doped YA1O3 single crystals, J. Cryst. Growth, 198/199, (1999), 435-439
[57] Kuklija M. A.: Defect calculations for yttrium aluminium perovskite and garnet crystals, Defects and surface-induced effect in advanced perovskites, edited by G.Borsel et. al., (2000), 61-66
[58] Grabmaier B. C., Wersing W., Koestler W.: Properties of undoped and MgO-doped LiNbO3; correlation on the defect structure, J.Cryst. Growth, 110, (1991), 339-347
[59] Schirmer O. R, Thiemman O., Wochlecke M.: Defects in LiNbO3 - I Experimental aspects, J. Phys. Chem. Solids, 52, (1991), 185-200
[60] Bojarski Z., Gigla M., Stróż K., Surowiec M.: Krystalografia. Podręcznik wspomagany komputerowo, PWN, Warszawa, 2001
[61] Weis R. S., Gaylord T. K.: Lithium niobate: Summary of physical properties and crystal structure, Appl. Phys. A, 37, (1985), 191-203
[62] Iyi N., Kitamura K., Izumi F., Yamamoto J. K., Hayashi T., Asano A., Kimura S.: Comparative study of defect structures in lithium niobate with different compositions, J Solid State Chem. 101, (1992), 340-352
[63] Grachev V. G., Malavichko G. I., Schirmer O.: Interrelation of intrinsic defect-congruent, stoichiometric, and regularly ordered lithium niobate, Appl. Phys. B 68, (1999), 785-793
[64] Leroux Ch., Nihoul G., Malovichko G., Grachev V., Boluestei C.: Investigation of correlated defects in non-stoichiometric lithium niobate by high resolution electron microscopy, J.Phys. Chem. Solids, 59, 3, (1998), 311-319
[65] Iyi N., Kitamura K., Yajima Y., Kimura S., Frukawa Y, Sato M.: Defect structure model of MgO-doped LiNbO3, J. Solid State Chem,. 118, (1995), 148-152
[66] Muller M., Schirmer O. F.: Microscopic structure of NbLi related defects in reduced undoped LiNbO3, Ferroelectrices, 125, (1992), 319-324
[67] Lorenzo A., Loro H., Munoz Santiuste J. E., Terrile M. C., Boulon G., Bausa L. E., Garcia-Sole J.: RBS/chanelling to locate active ions in laser materials: application to rare earth activated LiNbO3, Optical Materials, 8, (1997), 55-63
[68] Lorenzo A., Jafferic H., Roux B., Boulon G., Garcia-Sole J.: Lattice location of rare earth ions in LiNbO3, Appl. Phys. Lett., 67, 25, (1995), 3735-3737
[69] Garcia-Sole J., Bausa L. E., Jaque D., Montoya E., Murrieta H., Jaque F.: Rare earth and transition metal ion centers in LiNbO3, Spectrochemica Acta Part A, 54, (1998), 1571-1581
[70] Kovacs L., Rebouta L., Scares J. C., M. F. de Silva, Hage-Ali M., Stoquert J. P., Siffert P., Sanz-Garcial. A., Corradi G., Szaller Zs.,Po1gar K.: On the lattice site of trivalent dopants and the structure of Mg2+-OH-M3+ defects in LiNbO3:Mg crystals, J. Phys.-Cond. Matter., 5, 7, (1993), 781-794
[71] Grachev V., Malavichko G., Schirmer O.: Models of axial and low symetry impurity centers in lithium niobate crystals derived from EPR and ENDOR data, Radiation Effects & Deffects in Solids, 150, (1999), 277-280
[72] Zhydachevski Ya. A., Matkovskii A. O., Sugak D. Yu., Potera P., Pracka L, Lukasiewicz T., Solski I. M., Mierczyk Z.: Radiation and optical properties of the LiNb03 crystals doped with d- and f- elements, J. Phys. Stud., 5, 1, (2001), 19-23
[73] Sugak D. Yu., Matkowskii A. O., Frukacz Z., Durygin A. N., Suhocki A., Łukasiewicz T., Solskii I. M., Oliinyk V. Ya., Shakhov A. P.: Effect of gamma irradiation and annealing on the optical properties of YA1O3, YAlO3:Nd, YAlO3:Er crystals, Inorganic Materials, 33, 6, (1997), 626-632
[74] Stelmakh N. S., Ryabov A. I., Pirogova G. N.: Mechanism for temperature changes in the absorption spectra of gamma - irradiated yttrium aluminum garnet and yttrium aluminate, Inorganic Materials, 28, 2, (1992), 295-299
[75] Vahidov Sh. A., Esemuratov B., Ibragimova E. M., Rakov A. F.: Radiation stimuled effect in oxygen crystals and glasses, Fan, Taskent, 1977
[76] Kovaleva N. S., Mochalov I. V.: Formation of color centers in yttrium orthoaluminate crystals, Kvantovaja Elektronika, 5, 12, (1978), 2533-2537
[77] Skvortsova V., Mironova-Ulmane N., Matkovskii A., Ubizski S.: Radiation induced defects in yttrium aluminium perovskite, Defects and Surface-Induced Effects in Advanced Perovskites (editor G.Borshel, Kluwer Academic Publisher, 2000, 399-404)
[78] Bernhardt H.: On the coloration behaviour of undoped YA1O3 crystals, Phys. Stat. Sol. (a), 21, 1, 1974, 95-98
[79] Schirmer O. F., Blazey K. W., Berlinger W., Diehl R.: ESR and optical absorption of bound-small polaron, Phys. Rev. B, 11, 11, (1974), 4201-4211
[80] Ubizskii S. B., Matkovskii A. O., Mironova-Ulmane N., Skvortsova V., Suchocki A. , Zhydachevskii Y. A., Potera P.: Displacement defect formation in oxide crystals under irradiation, Phys. Stat. Sol. (a), 177, (2000), 349-366
[81] Matkovskii A., Potera P., Sugak D., Zhydachevskii Yu. A., Bolshakova I., Loutts G., Pracka I.: Influence of impurity ions on the radiation induced optical absorption in YA1O3 and LiNbO3 crystals, Radiation Effects & Deffects in Solids, 155, 1-4, (2001), 61-64
[82] Hodgson E. R., Agullo-Lopez F.: Oxygen vacancy centers induced by electron irradiation in LiNbO3, Solid State Comm., 64, 6, (1987), 965-968
[83] Karaseva L. G., Bondarenko G. P., Gromov V. V.: Investigation of optical active centres of the irradiated lithium niobate, Rod. Phys. Chem., 10, (1977) 241-245
[84] Hodgson E. R., Agullo-Lopez F.: Displacement damage in LiNbO3, Nucl. Instr. & Meth. in Phys. Res. B, 32, (1998) 42-44
[85] Pracka L, Bajor A., Kaczmarek S. M., Świrkowicz M., Kaczmarek B., Kisielewski J., Łukasiewicz T.: Growth and characterization of LiNbO3 single crystals doped with Cu and Fe ions, Cryst. Res. Technol. 34, 5-6, (1999), 627-634
[86] Vartanjan E.S., Ovsepjan R. K., Pogosjan A. R., Timoffeev A.L:, Vlijanie gamma-oblučenija na fotorefraktivnye i fotoelektričeskie svojstva niobata litija, Fizika Tvorego Telf, 26, 8, (1984), 2418-2423
[87] Youchum H. M., Ucer K. B., Williams R. T., Sheldon P. A., Nagirnyj V., Denks V., Grigorjewa L., Millers D., Kotomin E. A.: Short-pulse excitation and spectroscopy of KNbO3, LiNbO3, and KTiOPO4, Radiation Effects & Defects in Solids, 150, (1999), 271-276
[88] Linde D., Schirmer O. F., Kurz H., Intrinsic photorefractive effect of LiNbO3, Appl. Phys., 15, (1978), 153-156
[89] Pareja R., Gonzalez R., Pedrosa M. A.: Study of thermochemically reduced and electron irradiated LiNbO3 single crystals by positron annihilation and optical absorption measurements, Phys. Stat. Sol. (a), 84, 1, (1988), 179-183
[90] Halliburton L. E., Sweeney K. L., Chen C. Y: Electron spin resonance and optical studies of point defects in lithium niobate, Nucl. Instr. & Meth. in Phys. Res. B, 1 (1984), 344-347
[91] Hodgson E. R., Agullo-Lopez R: Colouring and annealing behaviour of electron irradiated LiNbO3:Fe, J.Phys. Cond. Matter, 3, (1991), 285-289,
[92] Grigorjewa L., Millers D., Corradi G., Polgar K., Pankratov V.: Induced optical absorption and its relaxation in LiNbO3, Radiation Effect & Deffects in Solids, 150, (1999), 193-198
[93] Grigorjewa L., Pankratov V, Millers D., Corradi G., Polgar K.: Relaxation of electronic excitations in LiNbO3 crystals, Ferroelectrics, 257, 1-4, (2001), 281-292
[94] Kostritskii S. M., Sevostyanov O. G.: Influence of intrinsic defects on light-induced changes in the refractive index of lithium niobate crystals, Appl. Phys. B 65, (1997), 527-533
[95] Kurz H., Kratzig E., Keune W., Engelmann H., Gonser U., Dischler B., Rauber A.: Photorefractive centers in LiNbO3, studied by optical-, Mossbauer- and EPR-methods, Appl. Phys., 12, 4, (1977) 355-368
[96] Kaczmarek S. M., Berkowski M., Moroz Z., Warchol S.: Effect of annealing and irradiation on the optical properties of oxide crystals, Acta Physica Polonica, 96, 4-4, (1999), 417-427
[97] Kaczmarek S. M.: Role of the type of impurity in radiation influence on oxide compounds, Cryst. Res. Techno!., 34, 5-6, (1999), 735-743
[98] Pankratov V., Millers D., Grigorjeva L., Matkovskii A. O., Potera P., Pracka L, Łukasiewicz T.: The role of the Fe and Cu doping to electron-hole trapping and relaxation process in congruent LiNbO3, Optical Materials, 22, 3, (2003), 257-262
[99] Garcia-Cabanes A., Dieguez E., Cabrera J. M., Agullo-Lopez F.: Contributing hands to the optical absorption of reduced LiNbO3: thermal and optical excitation, J. Phys. Cond. Matter., 1, (1989) 6453-6462
[100] Koppitz J., Schirmer O. F., Kuznetsov A. L: Thermal dissociation of bipolarons in reduced undoped LiNbO3, Europhysics Lett., 4, 9, (1987), 1055-1059
[101] Ho F. D.: Point-ion-lattice calculations on F+ centers in lithium niobate and lithium tantalate, Phys. Stat. Sol. (b), 114, (1982), 209
[102] Matkovskii A., Potera P., Sugak D., Zhydachevskii Y, Pankratov V., Millers D., Grigorjeva L., Pracka L, Łukasiewicz T.: Transient and stable color centers in pure and Cu- doped LiNbO3, Cryst. Res. Techno!., 38, 3-5, (2003), 388-393
[103] Achmabullin I.S., Goleniscev-Kumuzov, Migacev S.A., Mironov S.P.: Opticečkie spektry ionov zeleza w LiNbO3, Fizika Tvordego Tela, 37, 2 (1995), 415-421
[104] M. Wiśniewska, A. J. Wojtowicz, T. Łukasiewicz, Z. Frukacz, Z. Gałazka, M. Malinowski, “Radio- and VUV -excited luminescence of YAP:Ce, YAP:Pr and YAG:Pr”, Proceedings of SPIE 4412 (2001), 351-356
[105] Matkovskii A., Potera P., Sugak D., Grigorjeva L., Millers D., Pankratov V, Suchocki A.: Stable and transient color centers in Gd3Ga5O12 crystals, Crystal Research & Technology, 39, 9, (2004), 788-795
[106] Baryshevsky V. G., Korzhik M. V, Minkov B. I., Smirnova S. A., Fyodorov A. A., Dorenbos P., CWE. van Eijk: Spectroscopy and scintillation properties of cerium doped YA1O3 single crystals, J. Phys-Cond. Matter., 5, 42, (1993), 7893-7902
[107] Tomiki T., Ishikawa H., Tashiro T., Katsuren M., Yonesu A., Hotta T., Yabiku T, Akamine M., Futemma T., Nakaoka T., Miyazato I.: Ce3+ centers in YA1O3 (YAP) single crystals, J. Phys. Soc. Japan, 64, 11, (1995), 4422-4449
[108] Kaczmarek M., Łukasiewicz T., Pracka I., Jabloński R., Boulon G., Kaczmarek B., Warchol S.: Radiation defects in Dy3+ doped LiNbO3 single crystals, J. Alloys & Comp., 275-277, (1998), 105-108
[109] Loro H., Voda M., Jaque F., Garcia-Sole J. A., Monuoz Santiuste J. E.: Polarized absorption of Nd3+ in LiNbO3: effect of MgO codoping, J.Applied Phys., 77(11), (1995) 5929-5935
[110] G. Dominiak-Dzik, S. Gołąb I. Pracka, W. Ryba-Romanowski, “Spectroscopic properties and excited-state relaxation dynamic of Er3+ in LiNbO3”, Appl. Phys. A 58, (1994), 551-555
[111] Petrosjan A. K., Chačatarjan R.M., Sarojan E.G.: Effekt Jana-Tellera iona Cu2+ v monokristalle LiNbO3, Fizika Tvordego Tela, 26, 1, (1984), 22-28
[112] Clark M. G., Di Salvo F. J., Glass A. M., Peterson G. E.: Electronic structure and optical damage of iron-doped lithium nibate, J. Chem. Physic, 59, 12, (1973), 6209-6219
[113] Frukacz Z., Łukasiewicz T., Matkovskii A., Pracka I., Sugak D., Solski I., Vasylechko L., Durygin A.: Effects of ionizing radiation on the optical absorption of LiNbO3 and YA1O3 single crystals, J.Cryst. Growth, 169, (1996), 98-101
[114] Berben D., Andreas B., Buse K.: X-ray-induced photochromic effects in cooper lithium niobate crystals, Appl. Phys. B 72, (2001), 729-732
[115] Potera P., Grigorjeva L., Matkovskii A., Millers D., Łukasiewicz T., Gałązka Z., Woj-ciechowski T.: Time resolved optical absorption in YA1O3 crystals, Radiation Measurements, (2004), 38, (4-6), (2004), 371-374
[116] Garmash V. M., Ermakov G. A., Lyubchenko V. M., Filimonov A. A.: Investigation of the influence of unstable defects on generation of laser radiation in YAG:Nd3+, Sov. J. Quantum Elect., 16, 4,(1986), 558-560; Kvantovaja Elektronika, 13, 4, (1986), 855-857
[117] Mori K.: Transient colour centres caused by UV light irradiation in yttrium aluminium garnet crystals, Phys. Stat. Sol. (a), 42, (1977), 375-384
[118] Brannon P. J.: Transient radiation-induced absorption at 1061 nm in LiNbO3 and MgO: LiNbO3, IEEE Transaction on Nuclear Science, 41, 3 (1994), 642-647
[119] Berben D., Buse K., Wevering S.: Lifetime of small polarons in iron-doped lithium--niobate crystals, J.Applied Physic, 87, 3, (2000), 1034-1041

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