Photoluminescence and energy transfer in Eu super(3+)-doped alkali gadolinium phosphates

Spectral-kinetic characteristics of the undoped and Eu super(3+)-doped alkali gadolinium phosphates of the type of MGdP sub(4)O sub(12) (M=Li, Na) have been studied within the 4.2-300K temperature range using time-resolved luminescence spectroscopy techniques. The photon cascade luminescence of Gd s...

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Veröffentlicht in:	Physica Status Solidi. B: Basic Solid State Physics 2013-07, Vol.250 (7), p.1418-1425
Hauptverfasser:	Krasnikov, Aleksei, Shalapska, Tetiana, Stryganyuk, Gregory, Voloshinovskii, Anatoliy, Zazubovich, Svetlana
Format:	Artikel
Sprache:	eng
Schlagworte:	Band spectra Cutting Energy transfer Gadolinium Luminescence Migration Phosphates Spectra
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container_title	Physica Status Solidi. B: Basic Solid State Physics
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creator	Krasnikov, Aleksei Shalapska, Tetiana Stryganyuk, Gregory Voloshinovskii, Anatoliy Zazubovich, Svetlana
description	Spectral-kinetic characteristics of the undoped and Eu super(3+)-doped alkali gadolinium phosphates of the type of MGdP sub(4)O sub(12) (M=Li, Na) have been studied within the 4.2-300K temperature range using time-resolved luminescence spectroscopy techniques. The photon cascade luminescence of Gd super(3+) ions in the undoped LiGdP sub(4)O sub(12) phosphate has been observed. In the case of the Eu super(3+)-doped MGdP sub(4)O sub(12) phosphates, no quantum cutting process takes place due to the spectral overlap of the charge transfer band of Eu super(3+) with the bands arising from the super(6)G sub()Jlevels of Gd super(3+). The processes of energy migration along the Gd super(3+) sublattice and the Gd super(3+) arrow right Eu super(3+) energy transfer have been studied. The phonon-assisted population of the Gd super(3+ 6)P sub(5/2,3/2) excited levels is suggested to be responsible for the increase in the probability of the energy migration along the Gd super(3+) sublattice via the super(6)P sub()Jstates with the subsequent energy transfer to the super(5)I sub()Jlevels of an Eu super(3+) ion.
doi_str_mv	10.1002/pssb.201349020
format	Article
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The photon cascade luminescence of Gd super(3+) ions in the undoped LiGdP sub(4)O sub(12) phosphate has been observed. In the case of the Eu super(3+)-doped MGdP sub(4)O sub(12) phosphates, no quantum cutting process takes place due to the spectral overlap of the charge transfer band of Eu super(3+) with the bands arising from the super(6)G sub()Jlevels of Gd super(3+). The processes of energy migration along the Gd super(3+) sublattice and the Gd super(3+) arrow right Eu super(3+) energy transfer have been studied. The phonon-assisted population of the Gd super(3+ 6)P sub(5/2,3/2) excited levels is suggested to be responsible for the increase in the probability of the energy migration along the Gd super(3+) sublattice via the super(6)P sub()Jstates with the subsequent energy transfer to the super(5)I sub()Jlevels of an Eu super(3+) ion.</description><identifier>ISSN: 0370-1972</identifier><identifier>EISSN: 1521-3951</identifier><identifier>DOI: 10.1002/pssb.201349020</identifier><language>eng</language><subject>Band spectra ; Cutting ; Energy transfer ; Gadolinium ; Luminescence ; Migration ; Phosphates ; Spectra</subject><ispartof>Physica Status Solidi. 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The photon cascade luminescence of Gd super(3+) ions in the undoped LiGdP sub(4)O sub(12) phosphate has been observed. In the case of the Eu super(3+)-doped MGdP sub(4)O sub(12) phosphates, no quantum cutting process takes place due to the spectral overlap of the charge transfer band of Eu super(3+) with the bands arising from the super(6)G sub()Jlevels of Gd super(3+). The processes of energy migration along the Gd super(3+) sublattice and the Gd super(3+) arrow right Eu super(3+) energy transfer have been studied. The phonon-assisted population of the Gd super(3+ 6)P sub(5/2,3/2) excited levels is suggested to be responsible for the increase in the probability of the energy migration along the Gd super(3+) sublattice via the super(6)P sub()Jstates with the subsequent energy transfer to the super(5)I sub()Jlevels of an Eu super(3+) ion.</abstract><doi>10.1002/pssb.201349020</doi></addata></record>
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subjects	Band spectra Cutting Energy transfer Gadolinium Luminescence Migration Phosphates Spectra
title	Photoluminescence and energy transfer in Eu super(3+)-doped alkali gadolinium phosphates
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