Tytuł artykułu
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The infrared to visible conversion in zinc tellurite glasses (TZG), activated by Er3+ ions and sensitized by Yb3+ ions, has been investigated under 980 nm pulsed laser excitation. The up-conversion mechanism was studied by means of time-resolved luminescence spectroscopy. A model for the dynamics of frequency up-conversion in Er3+/Yb3+ co-doped TZG based on the rate equations was proposed. The dynamics of the up-converted emissions were studied to evaluate energy rates between Er3+ and the Yb3+ ions, and the rate excited state absorption (ESA) in Er3+ ions.
Czasopismo
Rocznik
Tom
Strony
235--245
Opis fizyczny
Bibliogr. 38 poz.
Bibliografia
- [1] AUZEL F.E., Materials and devices using double-pumped-phosphors with energy transfer,Proceedings of the IEEE 61(6), 1973, pp. 758–786.
- [2] MARTÍN I.R., MÉNDEZ-RAMOS J., RODRÍGUEZ V.D., ROMERO J.J., GARCÍA-SOLÉ J., Increase of the 800 nm excited Tm3+ blue upconversion emission in fluoroindate glasses by codoping with Yb3+ ions, Optical Materials 22 (4), 2003, pp. 327–333.
- [3] PATRA A., SAHA S., ALENCAR M.A.R.C., RAKOV N., MACIEL G.S., Blue upconversion emission of Tm3+– Yb 3+ in ZrO2 nanocrystals: Role of Yb3+ ions, Chemical Physics Letters 407 (4 – 6), 2005,pp. 477–481.
- [4] HEER S., WERMUTH M., KRÄMER K., EHRENTRAUT D., GÜDEL H.U., Up-conversion excitation of sharp Cr3+ 2E emission in YGG and YAG codoped with Cr3+ and Yb3+, Journal of Luminescence 94–95,2001, pp. 337–341.
- [5] BOYER J.C., VETRONE F., CAPOBIANCO J.A., SPEGHINI A., ZAMBELLI M., BETTINELLI M., Investigation of the upconversion processes in nanocrystalline Gd3Ga5O12:Ho3+, Journal of Luminescence 106 (3–4), 2004, pp. 263–268.
- [6] CHEN X.B., LI M.X., LI K., FENG Y., BI S.Z., ZHANG G.Y., SUN Y.G., Nonresonant up-conversion energy transfer directly achieved through a kind of coupling state quasi-clusters of rare-earth ions,Optics Communications 160 (4–6), 1999, pp. 364–375.
- [7] HIRAO K., KISHIMOTO S., TANAKA K., TANABE S., SOGA N., Upconversion fluorescence of Ho3+ inTeO2-based glasses, Journal of Non-Crystalline Solids 139, 1992, pp. 151–156.
- [8] BALDA R., FERNÁNDEZ J., FERNÁNDEZ-NAVARRO J.M., Study of broadband near-infrared emission in Tm3+– Er3+ codoped TeO2–WO3–PbO glasses, Optics Express 17 (11), 2009, pp. 8781–8788.
- [9] BOR-CHYUAN HWANG, SHIBIN JIANG, TAO LUO, LE NEINDRE L., WATSON J., PEYGHAMBARIAN N.,Characterization of cooperative upconversion and energy transfer of Er3+ and Yb3+/ Er3+ doped phosphate glasses, Proceedings of SPIE 3622, 1999, pp. 10–18.
- [10] OHTSUKI T., PEYGHAMBARIAN N., HONKANEN S., NAJAFI S. I., Gain characteristics of a high concentration Er3+-doped phosphate glass waveguide, Journal of Applied Physics 78 (6), 1995,pp. 3617–3621.
- [11] MACFARLANE D.R., JAVORNICZKY J., NEWMAN P.J., BOGDANOV V., BOOTH D.J., GIBBS W.E.K.,High Er(III) content ZBN glasses for microchip laser applications, Journal of Non-Crystalline Solids 213–214, 1997, pp. 158–163.
- [12] FUJIWARA H., SASAKI K., Upconversion lasing of a thulium-ion-doped fluorozirconate glass microsphere, Journal of Applied Physics 86 (5), 1999, pp. 2385–2388.
- [13] SCHEPS R., Upconversion laser processes, Progress in Quantum Electronics 20(4), 1996, pp. 271–358.
- [14] AUZEL F., MEICHENIN D., PELLÉ F., GOLDNER P., Cooperative luminescence as a defining process for RE-ions clustering in glasses and crystals, Optical Materials 4 (1), 1994, pp. 35–41.
- [15] GOLDNER P., PELLÉ F., Photon avalanche fluorescence and lasers, Optical Materials 5 (4), 1996,pp. 239–249.
- [16] AUZEL F., Upconversion processes in coupled ion systems, Journal of Luminescence 45 (1–6), 1990,pp. 341–345.244 ABDELFATTEH CHERIF et al.
- [17] AUZEL F., YIHONG CHEN, Photon avalanche luminescence of Er3+ ions in LiYF4 crystal, Journal ofLuminescence 65 (1), 1995, pp. 45–56.
- [18] BOULMA E., JOUART J.P., BOUFFARD M., DIAF M., DOUALAN J.L., MONCORGÉ R., Laser-induced,Er3+ trace-sensitized red-to-blue photon-avalanche up-conversion in Tm3+:KY3F10, OpticalMaterials 30 (7), 2008, pp. 1028–1032.
- [19] JUNJIE ZHANG, SHIXUN DAI, GUONIAN WANG, LIYAN ZHANG, HONGTAO SUN, LILI HU, Investigation on upconversion luminescence in Er3+/Yb3+ codoped tellurite glasses and fibers, Physics Letters A345 (4–6), 2005, pp. 409–414.
- [20] LONG ZHANG, HEFANG HU, CHANGHONG QI, FENGYING LIN, Spectroscopic properties and energy transfer in Yb3+/Er3+ -doped phosphate glasses, Optical Materials 17 (3), 2001, pp. 371–377.
- [21] JAKUTIS J., WETTER N.U., KASSAB L.R.P., BONFIM F.A., Study of red up-conversion mechanism in Er3+/Yb3+ co-doped germanate glasses, XXX Encontro Nacional de Física da Matéria Condensada,2007, ID: 415-2.
- [22] DESIRENA H., DE LA ROSA E., SHULZGEN A., SHABET S., PEYGHAMBARIAN N., Er3+ and Yb3+concentration effect in the spectroscopic properties and energy transfer in Yb3+/ Er3+ codoped tellurite glasses, Journal of Physics D: Applied Physics 41 (9), 2008, p. 095102.
- [23] CANTELAR E., CUSSÓ F., Dynamics of the Yb3+ to Er3+ energy transfer in LiNbO3, AppliedPhysics B 69 (1), 1999, pp. 29–33.
- [24] PHILLIPPS J.F., TOPFER T., EBENDOREFF-HEIDEPRIEM H., EHRT D., SAUERBREY R., Energy transfer and upconversion in erbium-ytterbium-doped fluoride phosphate glasses, Applied Physics B 74 (3),2002, pp. 233–236.
- [25] YANG G.F., SHI D.M., ZHANG Q.Y., JIANG Z.H., Spectroscopic Properties of Er3+/Yb3+-codopedPbO–Bi2O3– Ga2O3– GeO2 glasses, Journal of Fluorescence 18 (1), 2008, pp. 131–137.
- [26] GAO YUAN, NIE QIU-HUA, XU TIE-FENG, SHEN XIANG, Thermal stability and spectroscopic properties of new Er3+/Yb3+-codoped tellurite glasses, Chinese Physics Letters 21(9), 2004, pp. 1799–1801.
- [27] SEAT H.C., SHARP J.H., Er3+ + Yb3+-codoped Al2O3 crystal fibres for high-temperature sensing,Measurement Science and Technology 14(3), 2003, pp. 279–285.
- [28] STROHHÖFER C., POLMAN A., Absorption and emission spectroscopy in Er3+– Yb3+ doped aluminum oxide waveguides, Optical Materials 21(4), 2003, pp. 705–712.
- [29] GAPONTSEV V.P., MATITSIN S.M., ISINEEV A.A., KRAVCHENKO V.B., Erbium glass lasers and their applications, Optics and Laser Technology 14 (4), 1982, pp. 189–196.
- [30] RIEDENER T., EGGER P., HULLIGER J., GÜDEL H.U., Upconversion mechanisms in Er3+-doped Ba2YCl7,Physical Review B 56 (4), 1997, pp. 1800–1808.
- [31] MALINOWSKI M., JOUBERT M.F., JACQUIER B., Dynamics of the IR-to-blue wavelength upconversion in Pr3+-doped yttrium aluminum garnet and LiYF4 crystals, Physical Review B 50 (17), 1994,pp. 12367–12374.
- [32] LONG ZHANG, HEFANG HU, CHANGHONG QI, FENGYING LIN, Spectroscopic properties and energy transfer in Yb3+/Er3+ -doped phosphate glasses, Optical Materials 17 (3), 2001, pp. 371–377.
- [33] CHERIF A., KANOUN A., JABA N., Red up-conversion dynamics in Er3+-doped TeO2–ZnO glasses,Optica Applicata 40 (1), 2010, pp. 109–118.
- [34] RYBA-ROMANOWSKI W., GOLAB S., CICHOSZ L., JEZOWSKA-TRZEBIATOWSKA B., Influence oftemperature and acceptor concentration on energy transfer from Nd3+ to Yb3+ and from Yb3+ toEr3+ in tellurite glass, Journal of Non-Crystalline Solids 105 (3), 1988, pp. 295–302.
- [35] JIANHU YANG, LIYAN ZHANG, LEI WEN, SHIXUN DAI, LILI HU, ZHONGHONG JIANG, Optical transitions and upconversion luminescence of Er3+/Yb3+ -codoped halide modified tellurite glasses, Journal of Applied Physics 95(6), 2004, pp. 3020–3026.
- [36] PAGE R.H., SCHAFFERS K.I., WAIDE P.A., TASSANO J.B., PAYNE S.A., KRUPKE W.F., UpconversionPumped Luminescence Efficiency of Rare-Earth-Doped Hosts Sensitized with Trivalent Ytterbium,UCRL-CR 6128099. Preprint, 1997
- [37] SHUFENG LI, CHENGREN LI, CHANGLIE SONG, Theoretical and experimental research on Er-doped and Yb–Er co-doped Al2O3 waveguide amplifiers, Frontiers of Optoelectronics in China 1(3 – 4), 2008,pp. 329–335.
- [38] FENG SONG, SHUJING LIU, ZHAOHUI WU, HONG CAI, JING SU, JIANGUO TIAN, JINGJUN XU, Model of longitudinally laser diode pumped erbium–ytterbium-codoped phosphate glass microchip laser with upconversion, IEEE Journal of Quantum Electronics 43 (9), 2007, pp. 817–823.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW7-0016-0022