Investigation of Alpha Decay Half-Life Using Quantum Tunneling Models in Heavy Nucle

dc.contributor.authorKareem N.M.
dc.contributor.authorKhalf Ya.S.
dc.contributor.authorKhalaf Saif-Ali J.
dc.contributor.authorAhmed E.M.
dc.date.accessioned2026-07-08T07:37:01Z
dc.date.issued2026
dc.description.abstractAlpha decay half-lives of selected heavy and superheavy nuclei with atomic number greater than 82 are systematically investigated using three quantum tunneling approaches. The calculated half-lives are compared with evaluated experimental data compiled in international nuclear data libraries. The predictive performance of each approach is assessed using the root-mean-square deviation of the logarithm of half-life values. The analysis indicates that the model based on Coulomb interaction with nuclear surface proximity effects provides the closest overall agreement with experimental values, with a deviation of 0.46 in logarithmic units. The unified fission-type approach shows intermediate agreement with a deviation of 0.63, while the semiclassical tunneling approximation shows the largest deviation of 0.88. These results highlight the importance of including nuclear surface proximity effects in barrier penetration calculations for reliable prediction of alpha-decay lifetimes in heavy and superheavy nuclei.
dc.identifier.citationKareem N.M. Investigation of Alpha Decay Half-Life Using Quantum Tunneling Models in Heavy Nuclei/N.M.Kareem [et al]//Eurasian Physical Technical Journal. - 2026. - Volume 23. - № 1(55). - P. 121-129
dc.identifier.urihttps://rep.buketov.edu.kz/handle/data/22769
dc.language.isoen
dc.publisherKaraganda National Research University named after academician E.A. Buketov
dc.relation.ispartofseriesEurasian Physical Technical Journal; №1(55)/2026
dc.subjectAlpha decay
dc.subjectQuantum tunneling
dc.subjectHeavy nuclei
dc.subjectCoulomb and Proximity Potential Model
dc.subjectWentzel– Kramers–Brillouin
dc.subjectUnified Fission Model
dc.titleInvestigation of Alpha Decay Half-Life Using Quantum Tunneling Models in Heavy Nucle
dc.typeArticle

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