Down-conversion luminescence from (Ce, Yb) co-doped oxygen-rich silicon oxides

Chenglin L. Heng; T. Wang; Wenyong Y. Su; H. C. Wu; P. G. Yin; T. G. Finstad

doi:10.1063/1.4945111

Down-conversion luminescence from (Ce, Yb) co-doped oxygen-rich silicon oxides

Chenglin L. Heng^*, T. Wang, Wenyong Y. Su, H. C. Wu, P. G. Yin, T. G. Finstad

^*Corresponding author for this work

School of Physics

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

We have studied down-conversion photoluminescence (PL) from (Ce, Yb) co-doped "oxygen rich" silicon oxide films prepared by sputtering and annealing. The Ce³⁺ ∼510 nm PL is sensitive to the Ce concentration of the films and is much stronger for 3 at. % Ce than for 2 at. % Ce after annealing at 1200 °C. The PL emission and excitation spectroscopy results indicate that the excitation of Yb³⁺ is mainly through an energy transfer from Ce³⁺ to Yb³⁺, oxide defects also play a role in the excitation of Yb³⁺ after lower temperature (∼800 °C) annealing. The Ce³⁺ 510 nm photon excites mostly only one Yb³⁺ 980 nm photon. Temperature-dependent PL measurements suggest that the energy transfer from Ce³⁺ to Yb³⁺ is partly thermally activated.

Original language	English
Article number	123105
Journal	Journal of Applied Physics
Volume	119
Issue number	12
DOIs	https://doi.org/10.1063/1.4945111
Publication status	Published - 28 Mar 2016

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@article{188e9e8970574ccdae2fe189a1747685,

title = "Down-conversion luminescence from (Ce, Yb) co-doped oxygen-rich silicon oxides",

abstract = "We have studied down-conversion photoluminescence (PL) from (Ce, Yb) co-doped {"}oxygen rich{"} silicon oxide films prepared by sputtering and annealing. The Ce3+ ∼510 nm PL is sensitive to the Ce concentration of the films and is much stronger for 3 at. % Ce than for 2 at. % Ce after annealing at 1200 °C. The PL emission and excitation spectroscopy results indicate that the excitation of Yb3+ is mainly through an energy transfer from Ce3+ to Yb3+, oxide defects also play a role in the excitation of Yb3+ after lower temperature (∼800 °C) annealing. The Ce3+ 510 nm photon excites mostly only one Yb3+ 980 nm photon. Temperature-dependent PL measurements suggest that the energy transfer from Ce3+ to Yb3+ is partly thermally activated.",

author = "Heng, {Chenglin L.} and T. Wang and Su, {Wenyong Y.} and Wu, {H. C.} and Yin, {P. G.} and Finstad, {T. G.}",

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doi = "10.1063/1.4945111",

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T1 - Down-conversion luminescence from (Ce, Yb) co-doped oxygen-rich silicon oxides

AU - Heng, Chenglin L.

AU - Wang, T.

AU - Su, Wenyong Y.

AU - Wu, H. C.

AU - Yin, P. G.

AU - Finstad, T. G.

PY - 2016/3/28

Y1 - 2016/3/28

N2 - We have studied down-conversion photoluminescence (PL) from (Ce, Yb) co-doped "oxygen rich" silicon oxide films prepared by sputtering and annealing. The Ce3+ ∼510 nm PL is sensitive to the Ce concentration of the films and is much stronger for 3 at. % Ce than for 2 at. % Ce after annealing at 1200 °C. The PL emission and excitation spectroscopy results indicate that the excitation of Yb3+ is mainly through an energy transfer from Ce3+ to Yb3+, oxide defects also play a role in the excitation of Yb3+ after lower temperature (∼800 °C) annealing. The Ce3+ 510 nm photon excites mostly only one Yb3+ 980 nm photon. Temperature-dependent PL measurements suggest that the energy transfer from Ce3+ to Yb3+ is partly thermally activated.

AB - We have studied down-conversion photoluminescence (PL) from (Ce, Yb) co-doped "oxygen rich" silicon oxide films prepared by sputtering and annealing. The Ce3+ ∼510 nm PL is sensitive to the Ce concentration of the films and is much stronger for 3 at. % Ce than for 2 at. % Ce after annealing at 1200 °C. The PL emission and excitation spectroscopy results indicate that the excitation of Yb3+ is mainly through an energy transfer from Ce3+ to Yb3+, oxide defects also play a role in the excitation of Yb3+ after lower temperature (∼800 °C) annealing. The Ce3+ 510 nm photon excites mostly only one Yb3+ 980 nm photon. Temperature-dependent PL measurements suggest that the energy transfer from Ce3+ to Yb3+ is partly thermally activated.

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U2 - 10.1063/1.4945111

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VL - 119

JO - Journal of Applied Physics

JF - Journal of Applied Physics

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M1 - 123105

ER -

Down-conversion luminescence from (Ce, Yb) co-doped oxygen-rich silicon oxides

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