Study of exciton dynamics in garnets by low temperature thermo-luminescence

D. T. MacKay; C. R. Varney; J. Buscher; F. A. Selim

doi:10.1063/1.4739722

Study of exciton dynamics in garnets by low temperature thermo-luminescence

D. T. MacKay
, C. R. Varney
, J. Buscher
, F. A. Selim

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

29 Scopus citations

Abstract

Shallow traps that affect exciton dynamics in undoped and Ce doped yttrium aluminum garnet (CeYAG) single crystals were studied by low temperature thermo-luminescence spectroscopy. The nature of traps was identified and their energy levels in the band gap were measured. Three types of traps were found: two very shallow traps with activation energy of less than 0.2 eV associated with electronic defects, one trap with activation energy of 0.5 eV associated with oxygen vacancies, and one relatively deeper trap with activation energy of 0.7 eV associated with hydrogen impurities. The association of oxygen vacancies with shallow traps as evident from this work and with deep traps as reported by Varney [J. Appl. Phys. 111, 063505 (2012)] suggest their presence in the lattice in more than one charge state.

Original language	English (US)
Article number	023522
Journal	Journal of Applied Physics
Volume	112
Issue number	2
DOIs	https://doi.org/10.1063/1.4739722
State	Published - Jul 15 2012
Externally published	Yes

ASJC Scopus subject areas

General Physics and Astronomy

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10.1063/1.4739722

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title = "Study of exciton dynamics in garnets by low temperature thermo-luminescence",

abstract = "Shallow traps that affect exciton dynamics in undoped and Ce doped yttrium aluminum garnet (CeYAG) single crystals were studied by low temperature thermo-luminescence spectroscopy. The nature of traps was identified and their energy levels in the band gap were measured. Three types of traps were found: two very shallow traps with activation energy of less than 0.2 eV associated with electronic defects, one trap with activation energy of 0.5 eV associated with oxygen vacancies, and one relatively deeper trap with activation energy of 0.7 eV associated with hydrogen impurities. The association of oxygen vacancies with shallow traps as evident from this work and with deep traps as reported by Varney [J. Appl. Phys. 111, 063505 (2012)] suggest their presence in the lattice in more than one charge state.",

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AU - MacKay, D. T.

AU - Varney, C. R.

AU - Buscher, J.

AU - Selim, F. A.

PY - 2012/7/15

Y1 - 2012/7/15

N2 - Shallow traps that affect exciton dynamics in undoped and Ce doped yttrium aluminum garnet (CeYAG) single crystals were studied by low temperature thermo-luminescence spectroscopy. The nature of traps was identified and their energy levels in the band gap were measured. Three types of traps were found: two very shallow traps with activation energy of less than 0.2 eV associated with electronic defects, one trap with activation energy of 0.5 eV associated with oxygen vacancies, and one relatively deeper trap with activation energy of 0.7 eV associated with hydrogen impurities. The association of oxygen vacancies with shallow traps as evident from this work and with deep traps as reported by Varney [J. Appl. Phys. 111, 063505 (2012)] suggest their presence in the lattice in more than one charge state.

AB - Shallow traps that affect exciton dynamics in undoped and Ce doped yttrium aluminum garnet (CeYAG) single crystals were studied by low temperature thermo-luminescence spectroscopy. The nature of traps was identified and their energy levels in the band gap were measured. Three types of traps were found: two very shallow traps with activation energy of less than 0.2 eV associated with electronic defects, one trap with activation energy of 0.5 eV associated with oxygen vacancies, and one relatively deeper trap with activation energy of 0.7 eV associated with hydrogen impurities. The association of oxygen vacancies with shallow traps as evident from this work and with deep traps as reported by Varney [J. Appl. Phys. 111, 063505 (2012)] suggest their presence in the lattice in more than one charge state.

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Study of exciton dynamics in garnets by low temperature thermo-luminescence

Abstract

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