Alpha partıcle damage in some nuclear fuels: Effect on Radıal dıstrıbutıon functıon

High energy α-particles which are produced by the decay of actinide compounds collide with the ions of fuels in nuclear reactors. Isolated Frenkel pairs are produced in the path of α-particles and lattice parameter changes in the nuclear fuel (i.e., uranium dioxide or plutonium dioxide). Some of the...

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1. Verfasser:	Günay, Seçkin D.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Cages Cations Crystal defects Distribution functions Nuclear energy Nuclear fuels Nuclear reactors Parameters Particle decay Plutonium Plutonium dioxide Radial distribution Uranium Uranium dioxide
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description	High energy α-particles which are produced by the decay of actinide compounds collide with the ions of fuels in nuclear reactors. Isolated Frenkel pairs are produced in the path of α-particles and lattice parameter changes in the nuclear fuel (i.e., uranium dioxide or plutonium dioxide). Some of the cation (uranium) and anion (oxygen) defects is randomly distributed in the crystal, results increase in some peaks in radial distribution function. Remaining cation defects have their special positions, trapped in octahedral cages, surrounded by six cations. These interstitial cations give rise to a significant, new peak, smaller than the principle peak of nearest neighbor cation-cation distance. Area below the observed pre-peak, give us information about the number of cations in the octahedral position which is also linearly dependent on the relative change in lattice parameter.
doi_str_mv	10.1063/1.4968763
format	Conference Proceeding
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Isolated Frenkel pairs are produced in the path of α-particles and lattice parameter changes in the nuclear fuel (i.e., uranium dioxide or plutonium dioxide). Some of the cation (uranium) and anion (oxygen) defects is randomly distributed in the crystal, results increase in some peaks in radial distribution function. Remaining cation defects have their special positions, trapped in octahedral cages, surrounded by six cations. These interstitial cations give rise to a significant, new peak, smaller than the principle peak of nearest neighbor cation-cation distance. Area below the observed pre-peak, give us information about the number of cations in the octahedral position which is also linearly dependent on the relative change in lattice parameter.</abstract><cop>Melville</cop><pub>American Institute of Physics</pub><doi>10.1063/1.4968763</doi><tpages>4</tpages></addata></record>
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source	AIP Journals Complete
subjects	Cages Cations Crystal defects Distribution functions Nuclear energy Nuclear fuels Nuclear reactors Parameters Particle decay Plutonium Plutonium dioxide Radial distribution Uranium Uranium dioxide
title	Alpha partıcle damage in some nuclear fuels: Effect on Radıal dıstrıbutıon functıon
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