0000000000082223

AUTHOR

Dz Berzins

showing 4 related works from this author

EPR studies of the oxyfluoride glass ceramics using Mn2+as a paramagnetic probe

2010

In this work, we used Mn2+ as a dopant in the oxyfluoride glasses with various fluoride compounds. Electron paramagnetic resonance (EPR) measurements were carried out before and after a heat treatment of the material. In both cases, a well pronounced hyperfine (hf) structure of the EPR spectra characteristic to the Mn2+ ion have been observed. EPR measurements have also been studied for the separate fluoride counterparts of the oxyfluoride glasses. EPR spectra of the LaF3:Mn2+ and CaF2:Mn2+ powders show that Mn2+ ion has a strong superhyperfine (shf) interaction with surrounding fluorine nuclei, and this shf structure could be observed also in the heat treated glass samples.

DopantChemistryAnalytical chemistrychemistry.chemical_elementSpectral lineIonlaw.inventionParamagnetismchemistry.chemical_compoundlawFluorineElectron paramagnetic resonanceFluorideHyperfine structureIOP Conference Series: Materials Science and Engineering
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Analysis of Mn2+EPR spectral shapes for studies of the oxyfluoride glass ceramics

2011

We investigated the EPR superhyperfine structure of the Mn 2+ ion in the disordered BaF2 crystalline media which tends to crystallize in the oxyfluoride glass-ceramics material. Obtained EPR spectra reveal explicit shf structure due to Mn 2+ ion building into the BaF2 lattice showing its usefulness as a probe in orientationally disordered and amorphous structures. Two types with explicit shf structure of Mn 2+ ion characteristic EPR spectra were obtained in BaF2 powder samples characteristic with broad (type 1) and narrow (type 2) hyperfine structure lines. Spectra of the ZnF2-BaF2 oxyfluoride glass-ceramics samples revealed explicit fine structure lines.

ChemistryAnalytical chemistrySpectral linelaw.inventionAmorphous solidIonCrystallographylawLattice (order)visual_artvisual_art.visual_art_mediumCeramicElectron paramagnetic resonanceHyperfine structureIOP Conference Series: Materials Science and Engineering
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Angular dependence of recombination luminescence-detected EPR in a ZnO crystal

2015

Angular dependency of electron paramagnetic resonance, optically detected by UV-excited recombination luminescence (RL-EPR), was measured for nominally pure ZnO single crystals. Observed magnetic resonances belong to the broad yellow RL band with slow decay centred at 610 nm, which is characteristic of untreated ZnO crystals. In the sample, irradiated with the 266 nm UV laser, an additional RL band centred at 740 nm appears, which has considerably faster decay time than the yellow one. This RL band is characteristic of the luminescence of Fe3+ ions in the ZnO crystals. It could be observed only after the UV laser treatment. No RL-EPR signal was detected for this RL band. Our spectral simula…

Materials scienceCondensed Matter PhysicsAcceptorMolecular physicsAtomic and Molecular Physics and OpticsSpectral linelaw.inventionIonCrystallawIrradiationAtomic physicsLuminescenceElectron paramagnetic resonanceMathematical PhysicsRecombinationPhysica Scripta
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EPR Study of Gd3+local structure in ScF3crystal with negative thermal expansion coefficient

2015

Zero field splitting (ZFS) of Gd3+ impurity in ScF3 is studied by electron paramagnetic resonance at 77 and 295 K. ZFS parameter b4 values obtained from angular dependence simulations show that regardless of negative thermal expansion in ScF3 temperature dependence of |b4| is similar to other cubic fluoroperovskites. Our analysis of ZFS parameters indicates that the local structure of Gd3+ centres expands positively with temperature.

Materials scienceCondensed matter physicsZero field splittingCondensed Matter PhysicsLocal structureAtomic and Molecular Physics and Opticslaw.inventionCrystalNegative thermal expansionImpuritylawAngular dependencePhysics::Chemical PhysicsElectron paramagnetic resonanceMathematical PhysicsPhysica Scripta
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