Investigating material trends and lattice relaxation effects for understanding electron transfer phenomena in rare-earth-doped optical materials

Journal of Luminescence

Volumn 131, Issue 3, 2011, Pages 386-395

  Thiel, C W ^a   Cone, R L ^a  

^a MONTANA STATE UNIVERSITY   (United States)

Author keywords

Charge transfer; Lattice relaxation; Photoionization; Rare earth electron binding energies

Indexed keywords

4F-ELECTRONS; BAND STATE; ELECTRON BINDING ENERGY; ELECTRON TRANSFER; ELEMENTAL METALS; EXPERIMENTAL TECHNIQUES; HOST CRYSTALS; HOST MATERIALS; LATTICE RELAXATION; LOCALIZED ELECTRONIC STATE; LUMINESCENCE QUENCHING; MATERIAL SYSTEMS; OPTICAL APPLICATIONS; OPTICAL TECHNOLOGY; PHOTOEMISSION SPECTRA; POTENTIAL MATERIALS; RARE EARTH IMPURITIES; RARE EARTH IONS; RARE-EARTH ELECTRON BINDING ENERGIES; RELATIVE ENERGIES; SYSTEMATIC CHANGES; SYSTEMATIC VARIATION; YAG;

CHARGE TRANSFER; CRYSTAL IMPURITIES; ELECTRON TRANSITIONS; EMISSION SPECTROSCOPY; ERBIUM DOPED FIBER AMPLIFIERS; FLUORINE COMPOUNDS; ION EXCHANGE; IONS; MASS TRANSFER; MATERIALS PROPERTIES; NUCLEAR ENERGY; OPTICAL SIGNAL PROCESSING; PHOTOIONIZATION; POTENTIAL ENERGY; SIGNAL PROCESSING;

BINDING ENERGY;

EID: 79952189548     PISSN: 00222313     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jlumin.2010.09.025     Document Type: Conference Paper

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