The electronic mechanism of the optical properties of alkali halide phosphors, activated by negative halide ions

The electronic mechanism of the optical properties of alkali halide phosphors, activated by negative halide ions

Kyropules grown samples are used in a investigation of absorption, emission and electrical properties of crystalline phosphors of alkali halides, activated by negative halide ions. Zero photoconductivity, the form of half with temperature dependence, and asymmetric line shape justify the use of a co...

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Main Author: Elder, J. W.
Language:en
Published: University of Canterbury. Physics 2013
Online Access:http://hdl.handle.net/10092/7970
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spelling ndltd-canterbury.ac.nz-oai-ir.canterbury.ac.nz-10092-79702015-03-30T15:31:14ZThe electronic mechanism of the optical properties of alkali halide phosphors, activated by negative halide ionsElder, J. W.Kyropules grown samples are used in a investigation of absorption, emission and electrical properties of crystalline phosphors of alkali halides, activated by negative halide ions. Zero photoconductivity, the form of half with temperature dependence, and asymmetric line shape justify the use of a configurational coordinate model. Trivial dependence of peak position on temperature, or the solvent anion, show that the electronic levels involved are associated with the activator ion.University of Canterbury. Physics2013-07-29T19:55:09Z2013-07-29T19:55:09Z1955Electronic thesis or dissertationTexthttp://hdl.handle.net/10092/7970enNZCUCopyright J. W. Elderhttp://library.canterbury.ac.nz/thesis/etheses_copyright.shtml
collection NDLTD
language en
sources NDLTD
description Kyropules grown samples are used in a investigation of absorption, emission and electrical properties of crystalline phosphors of alkali halides, activated by negative halide ions. Zero photoconductivity, the form of half with temperature dependence, and asymmetric line shape justify the use of a configurational coordinate model. Trivial dependence of peak position on temperature, or the solvent anion, show that the electronic levels involved are associated with the activator ion.
author Elder, J. W.
spellingShingle Elder, J. W.
The electronic mechanism of the optical properties of alkali halide phosphors, activated by negative halide ions
author_facet Elder, J. W.
author_sort Elder, J. W.
title The electronic mechanism of the optical properties of alkali halide phosphors, activated by negative halide ions
title_short The electronic mechanism of the optical properties of alkali halide phosphors, activated by negative halide ions
title_full The electronic mechanism of the optical properties of alkali halide phosphors, activated by negative halide ions
title_fullStr The electronic mechanism of the optical properties of alkali halide phosphors, activated by negative halide ions
title_full_unstemmed The electronic mechanism of the optical properties of alkali halide phosphors, activated by negative halide ions
title_sort electronic mechanism of the optical properties of alkali halide phosphors, activated by negative halide ions
publisher University of Canterbury. Physics
publishDate 2013
url http://hdl.handle.net/10092/7970
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AT elderjw electronicmechanismoftheopticalpropertiesofalkalihalidephosphorsactivatedbynegativehalideions
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