Search results for "LiF crystals"

showing 3 items of 3 documents

Depth profiles of aggregate centers and nanodefects in LiF crystals irradiated with 34 MeV 84Kr, 56 MeV 40Ar and 12 MeV 12C ions

2018

I. Manika, J. Maniks and R. Zabels acknowledge the national project IMIS2. A. Dauletbekova, A. Akilbekov, M. Zdorovets and A. Seitbayev acknowledge the GF AP05134257of Ministry of Education and Science the Republic of Kazakhstan.

IONSMaterials sciencePhotoluminescenceF2 AND F3^+ CENTERSDislocationsAGGREGATESFLUORINE COMPOUNDS02 engineering and technologyETCHING7. Clean energy01 natural sciencesFluenceENERGY DISSIPATIONIonIRRADIATION EXPERIMENTSLIF CRYSTALION BOMBARDMENT0103 physical sciencesF2 and F3 + centersMaterials Chemistry:NATURAL SCIENCES:Physics [Research Subject Categories]IrradiationLUMINESCENCE INTENSITYPhotoluminescenceLITHIUM COMPOUNDS010302 applied physicsLiF crystalsNANOHARDNESSDISLOCATIONS (CRYSTALS)Surfaces and InterfacesGeneral ChemistryNanoindentation021001 nanoscience & nanotechnologyCondensed Matter PhysicsIsotropic etchingSurfaces Coatings and FilmsLASER SCANNING CONFOCAL MICROSCOPYNANOINDENTATION TECHNIQUESIon irradiationCOLOR CENTERSHardeningELECTRONIC ENERGY LOSSAtomic physicsDislocationLUMINESCENCE SIGNALS0210 nano-technologyLuminescenceDamage depth profiles
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Formation of dislocations in LiF irradiated with 3He and 4He ions

2018

Influence of the irradiation with 13.5 MeV 3He and 5 MeV 4He ions on the micro-structure and mechanical properties of LiF single crystals was studied. The depth profiles of nanoindentation, dislocation mobility, selective chemical etching and photoluminescence served for the characterization of damage. Strong ion-induced increase of hardness and decrease in dislocation mobility at the stage of track overlapping due to accumulation of dislocations and other extended defects was observed. At high fluences (1015 ions/cm2) the hardness saturates at about 3.5 GPa (twofold increase in comparison to a virgin crystal) thus confirming high efficiency of light projectiles in modifications of structur…

Nuclear and High Energy PhysicsPhotoluminescenceMaterials scienceIon-irradiation3He and 4He ionsDislocations02 engineering and technology01 natural sciencesMolecular physicsNanoindentationIonCrystal0103 physical sciences:NATURAL SCIENCES:Physics [Research Subject Categories]General Materials ScienceIrradiation010306 general physicsPhotoluminescenceLiF crystalsNanoindentationDamage beyond the ion range021001 nanoscience & nanotechnologyIsotropic etchingCharacterization (materials science)Nuclear Energy and EngineeringDislocation0210 nano-technologyJournal of Nuclear Materials
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Modification of the Structure and Nano-Mechanical Properties of LiF Crystals Under Irradiation with Swift Heavy Ions

2011

The modifications of the structure and hardness of LiF crystals under high-fluence irradiation with MeV- and GeV-energy Au ions have been studied using nanoindentation and atomic force microscopy. The formation of ion-induced dislocations and bulk nanostructures consisting of grains with nanoscale dimensions (50 nm - 100 nm) has been observed. The structural modifications are accompanied by a strong ion-induced hardening which is related to dislocation impeding by assemblies of defect aggregates, dislocation loops of vacancy and interstitial types and grain boundaries. For MeV ions, the modifications are localized in a thin surface layer (few mm) where much higher density of deposited energ…

lcsh:TN1-997LiF crystalsNanostructureMaterials sciencenanoindentationhardeningMeV-energy ionsNanoindentationMolecular physicsnanostructuringIonCondensed Matter::Materials ScienceCrystallographyVacancy defectHardening (metallurgy)General Materials ScienceGrain boundaryIrradiationDislocationlcsh:Mining engineering. MetallurgyMaterials Science
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