Red up-conversion dynamics in Er3+-doped TeO2-ZnO glasses

• Autorzy: Cherif A. , Kanoun A. , Jaba N.
• Języki publikacji: EN

Abstrakty

EN

Red fluorescence has been obtained under 980 nm excitation in Er3+-doped TeO2-ZnO glasses. The dynamics of the red up-conversion is well explained with the proposed model. The energy transfer processes are predominant.

Słowa kluczowe

EN

tellurite glasses; erbium: Er3+; dynamics of up-conversion

• Wydawca: Oficyna Wydawnicza Politechniki Wrocławskiej
• Czasopismo: Optica Applicata
• Rocznik: 2010
• Tom: Vol. 40, nr 1
• Strony: 109--118
• Opis fizyczny: Bibliogr. 40 poz.

Twórcy

autor

Cherif A.

autor

Kanoun A.

autor

Jaba N.

• Laboratoire de Physique des Semi-conducteurs, Département de Physique, Faculté des Sciences, 5019 Monastir, Tunisie

Bibliografia

• [1] TANABE S., YOSHII S., HIRAO K., SOGA N., Upconversion properties, multiphonon relaxation, and local environment of rare-earth ions in fluorophosphate glasses, Physical Review B 45(9), 1992, pp. 4620–4625.
• [2] TANABE S., HIRAO K., SOGA N., Upconversion fluorescences of TeO2- and Ga2O3-based oxide glasses containing Er3+, Journal of Non-Crystalline Solids 122(1), 1990, pp. 79–82.
• [3] PAN Z., MORGAN S.H., DYER K., UEDA A., LIU H., Host-dependent optical transitions of Er3+ ions in lead–germanate and lead–tellurium–germanate glasses, Journal of Applied Physics 79(12),1996, pp. 8906–891.
• [4] MICHEL J.C., MORIN D., AUZEL F., Propriétés spectroscopiques et effet laser d’un verre tellurite et d’un verre phosphate fortement dopés en néodyme, Revue de Physique Appliquée 13(12), 1978, pp. 859–866.
• [5] AUZEL F.E., Materials and devices using double-pumped phosphors with energy transfer, Proceedings of the IEEE 61(6), 1973, pp. 758–786.
• [6] SCHEPS R., Upconversion laser processes, Progress in Quantum Electronics 20(4), 1996, pp. 271–358.
• [7] 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.
• [8] GOLDNER P., PELLÉ F., Photon avalanche fluorescence and lasers, Optical Materials 5(4), 1996, pp. 239–249.
• [9] AUZEL F., Upconversion processes in coupled ion systems, Journal of Luminescence 45(1–6), 1990, pp. 341–345.
• [10] AUZEL F., YIHONG CHEN, Photon avalanche luminescence of Er3+ ions in LiYF4 crystal, Journal of Luminescence 65(1), 1995, pp. 45–56.
• [11] 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, Optical Materials 30(7), 2008, pp. 1028–1032.
• [12] BRENIER A., GARAPON C., MADEJ C., PEDRINI C., BOULON G., Influence of looping mechanisms in up-conversion processes in Yb–Tm–Ho doped Gd3Ga5O12, Journal de Physique IV 4(C4), 1994, p. C4-431.
• [13] RUBIN J., BRENIER A., MONORGÉ R., PEDRINI C., MOINE B., BOULON G., ADAM J.L., LUCAS J., HENRY J.Y., Fluorescence dynamics in some solid-state laser materials emitting in the infrared region: Ho3+ doped LiYF4 single crystals and fluoride glasses, Journal de Physique Colloques 48(C7), 1987, p. C7-367.
• [14] BRENIER A., RUBIN J., MONCORGÉ R., PEDRINI C., Excited-state dynamics of the Tm3+ ions and Tm3+ → Ho3+ energy transfers in LiYF4, Journal de Physique 50(12), 1989, pp. 1463–1482.
• [15] ALLAIN J.Y., MONERIE M., POIGNANT H., Tunable green upconversion erbium fibre laser, Electronics Letters 28(2), 1992, pp.111–113.
• [16] CONGSHAN ZHU, XIAOJUAN LU, ZUYI ZHANG, Upconversion fluorescence of TeO2–PbO-based oxide glasses containing Er3+ ions, Journal of Non-Crystalline Solids 144, 1992, pp. 89–94.
• [17] VETRONE F., BOYER J.C., CAPOBIANCO J.A., SPEGHINI A., BETTINELLI M., 980 nm excited upconversion in an Er-doped ZnO–TeO2 glass, Applied Physics Letters 80(10), 2002, p. 1752.
• [18] HAI LIN, GERALD MEREDITH, SHIBIN JIANG, XIANG PENG, TAO LUO, NASSER PEYGHAMBARIAN, EDWIN YUE-BUN PUN, Optical transitions and visible upconversion in Er3+ doped niobic tellurite glass, Journal of Applied Physics 93(1), 2003, pp. 186–191.
• [19] FENG SONG, MYERS M.J., SHIBIN JIANG, YAN FENG, CHEN X.B., GUANGYIN ZHANG, Effect of erbium concentration on upconversion luminescence of Er:Yb:phosphate glass exited by InGaAs laser diode, Proceedings of SPIE 3622, 1999, pp. 182–188.
• [20] HONGPING MA, SHIQING XU, Effect of GeO2 content on upconversion luminescence of Er3+-doped PbF2–SiO2–GeO2 glassses, Journal of Materials Science 41(10), 2006, pp. 3155–3157.
• [21] LIAO M., HU L., DUAN Z., ZHANG L., WEN L., Spectroscopic properties of fluorophosphates glass with high Er3+ concentration, Applied Physics B: Lasers and Optics 86(1), 2007, pp. 83–89.
• [22] ZHANG X., JOUART J.P., MARY G., LIU X., YUAN J., Red excited-state absorption and up-conversion in Er3+:Ca3 Al2Ge3O12, Journal of Luminescence 72–74, 1997, pp. 983–984.
• [23] PETIT L., CARDINAL T., VIDEAU J.J., LE FLEM G., GUYOT Y., BOULON G., COUZI M., BUFFETEAU T., Effect of the introduction of Na2B4O7 on erbium luminescence in tellurite glasses, Journal of Non-Crystalline Solids 298(1), 2002, pp. 76–88.
• [24] NINGNING ZU, HAIGUI YANG, ZHENWEN DAI, Different processes responsible for blue pumped, ultraviolet and violet luminescence in high-concentrated Er3+:YAG and low-concentrated Er3+:YAP crystals, Physica B: Condensed Matter 403(1), 2008, pp. 174–177.
• [25] CHEN G.Y., LIU Y., ZHANG Z.G., AGHAHADI B., SOMESFALEAN G., SUN Q., WANG F.P., Four-photon upconversion induced by infrared diode laser excitation in rare-earth-ion-doped Y2O3 nanocrystals, Chemical Physics Letters 448(1–3), 2007, pp. 127–131.
• [26] BRENIER A., Laser-heated pedestal growth of Er3+-doped Gd2O3 single crystal fibres and up-conversion processes, Chemical Physics Letters 290(4–6), 1998, pp. 329–334.
• [27] TANABE S., SUZUKI K., SOGA N., HANADA T., Mechanisms and concentration dependence of Tm3+ blue and Er3+ green up-conversion in codoped glasses by red-laser pumping, Journal of Luminescence 65(5), 1995, pp. 247–255.
• [28] JUDD B.R., Optical absorption intensities of rare-earth ions, Physical Review 127(3), 1962, pp. 750–761.
• [29] OFELT G.S., Intensities of crystal spectra of rare-earth ions, Journal of Chemical Physics 37(3), 1962, p. 511.
• [30] JABA N., KANOUN A., MEJRI H., SELMI A., ALAYA S., MAAREF H., Infrared to visible up-conversion study for erbium-doped zinc tellurite glasses, Journal of Physics: Condensed Matter 12(20), 2000, pp. 4523–4534.
• [31] CANTELAR E., NEVADO R., LIFANTE G., CUSSO F., Modelling of 980 nm pumped EDWAs: spectroscopic variations associated to fabrication process, Optical and Quantum Electronics 33(4–5), 2001, pp. 561–569.
• [32] BERKDEMIR S., ÖZSOY S., Schematic representations for teaching the procedure of optical amplification in fiber amplifiers, Ref Etop083.
• [33] DOS SANTOS E.A., COURROL L.C., KASSAB L.R.P., GOMES L., WETTERB N.U., VIEIRA N.D., RIBEIRO S.J.L., MESSADDEQ Y., Evaluation of laser level populations of erbium-doped glasses, Journal of Luminescence 124(2), 2007, pp. 200–206.
• [34] KACZMAREK F., KAROLCZAK J., Infrared-to-visible upconversion in erbium fluoride (ZBLAN:Er3+) optical fiber: competition between the parasitic 850-nm fluorescence and the green laser emission at 544 nm, Opto-Electronics Review 12(2), 2004, pp. 247–248.
• [35] WU R., MYERS J.D., MYERS M.J., RAPP C.F., Fluorescence lifetime and 980nm pump energy transfer dynamics in erbium and ytterbium co-doped phosphate laser glasses, Proceedings of SPIE 4968, 2003, pp. 11–17.
• [36] TANGUY E., LARAT C., POCHOLLE J.P., Modelling of the erbium–ytterbium laser, Optics Communications 153(1–3), 1998, pp. 172–183.
• [37] TOMA O., GEORGESCU S., Pump wavelengths for an upconversion-pumped Er:YAG green-emitting laser, Optics-Lasers, 2005.
• [38] MOINE B., BOURCET J.C., BOULON G., REISFELD R., KALISKY Y., Interaction mechanisms in the Bi3+–Eu3+ energy transfer in germanate glass at low temperature, Journal de Physique 42(3), 1981, pp. 499–503.
• [39] SAVOINI B., MUÑOZ SANTIUSTE J.E., GONZÁLEZ R., Optical characterization of Pr3+-doped yttria-stabilized zirconia single crystals, Physical Review B 56(10), 1997, pp. 5856–5865.
• [40] ROTMAN S.R., LURIA E., YITZHAKI N., EYAL A., Practical models for energy transfer between ions in solids, Optical Materials 5(1–2), 1996, pp. 1–33.