Frequency non-degenerate sequential excitation of the impurity trapped excition in strontium fluoride crystal doped with ytterbium

P.S. Senanayake; J.P.R. Wells; M.F. Reid; R.B. Hughes-Currie; Giel Berden; R.J. Reeves; A. Meijerink

doi:10.1063/1.4916375

Frequency non-degenerate sequential excitation of the impurity trapped excition in strontium fluoride crystal doped with ytterbium

P.S. Senanayake
, J.P.R. Wells
, M.F. Reid
, R.B. Hughes-Currie
, Giel Berden
, R.J. Reeves
, A. Meijerink

extern

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

Abstract

We model the dynamic behaviour observed for impurity-trapped excitons in SrF2:Yb2+ using transient photoluminescence enhancement induced via a two-frequency, sequential excitation process employing an UV optical parametric amplifier synchronized to an IR free electron laser (FEL). We observe sharp transitions interpreted as a change of state of the localized hole and broad bands interpreted as a change of state of the delocalized electron. Our modeling indicates that the 4f crystal-field interaction is 25% smaller than in CaF2. The photoluminescence enhancement transients are analyzed across a range of excitation frequencies using a system of rate equations. The temporal behavior is explained in terms of intra-excitonic relaxation, local lattice heating by the FEL, and liberation of electrons from trap states.

Original language	English
Article number	133109
Journal	Journal of Applied Physics
Volume	117
DOIs	https://doi.org/10.1063/1.4916375
Publication status	Published - 2015

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title = "Frequency non-degenerate sequential excitation of the impurity trapped excition in strontium fluoride crystal doped with ytterbium",

abstract = "We model the dynamic behaviour observed for impurity-trapped excitons in SrF2:Yb2+ using transient photoluminescence enhancement induced via a two-frequency, sequential excitation process employing an UV optical parametric amplifier synchronized to an IR free electron laser (FEL). We observe sharp transitions interpreted as a change of state of the localized hole and broad bands interpreted as a change of state of the delocalized electron. Our modeling indicates that the 4f crystal-field interaction is 25\% smaller than in CaF2. The photoluminescence enhancement transients are analyzed across a range of excitation frequencies using a system of rate equations. The temporal behavior is explained in terms of intra-excitonic relaxation, local lattice heating by the FEL, and liberation of electrons from trap states.",

author = "P.S. Senanayake and J.P.R. Wells and M.F. Reid and R.B. Hughes-Currie and Giel Berden and R.J. Reeves and A. Meijerink",

year = "2015",

doi = "10.1063/1.4916375",

language = "English",

volume = "117",

journal = "Journal of Applied Physics",

issn = "0021-8979",

publisher = "American Institute of Physics",

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TY - JOUR

T1 - Frequency non-degenerate sequential excitation of the impurity trapped excition in strontium fluoride crystal doped with ytterbium

AU - Senanayake, P.S.

AU - Wells, J.P.R.

AU - Reid, M.F.

AU - Hughes-Currie, R.B.

AU - Berden, Giel

AU - Reeves, R.J.

AU - Meijerink, A.

PY - 2015

Y1 - 2015

N2 - We model the dynamic behaviour observed for impurity-trapped excitons in SrF2:Yb2+ using transient photoluminescence enhancement induced via a two-frequency, sequential excitation process employing an UV optical parametric amplifier synchronized to an IR free electron laser (FEL). We observe sharp transitions interpreted as a change of state of the localized hole and broad bands interpreted as a change of state of the delocalized electron. Our modeling indicates that the 4f crystal-field interaction is 25% smaller than in CaF2. The photoluminescence enhancement transients are analyzed across a range of excitation frequencies using a system of rate equations. The temporal behavior is explained in terms of intra-excitonic relaxation, local lattice heating by the FEL, and liberation of electrons from trap states.

AB - We model the dynamic behaviour observed for impurity-trapped excitons in SrF2:Yb2+ using transient photoluminescence enhancement induced via a two-frequency, sequential excitation process employing an UV optical parametric amplifier synchronized to an IR free electron laser (FEL). We observe sharp transitions interpreted as a change of state of the localized hole and broad bands interpreted as a change of state of the delocalized electron. Our modeling indicates that the 4f crystal-field interaction is 25% smaller than in CaF2. The photoluminescence enhancement transients are analyzed across a range of excitation frequencies using a system of rate equations. The temporal behavior is explained in terms of intra-excitonic relaxation, local lattice heating by the FEL, and liberation of electrons from trap states.

U2 - 10.1063/1.4916375

DO - 10.1063/1.4916375

M3 - Article

SN - 0021-8979

VL - 117

JO - Journal of Applied Physics

JF - Journal of Applied Physics

M1 - 133109

ER -

Frequency non-degenerate sequential excitation of the impurity trapped excition in strontium fluoride crystal doped with ytterbium

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