Molecular-dynamics simulations of uranium microclusters

Şakir Erkoç; Turgut Baştuǧ; Masaru Hirata; Shoichi Tachimori

doi:10.1143/JPSJ.68.440

Molecular-dynamics simulations of uranium microclusters

Şakir Erkoç
, Turgut Baştuǧ
, Masaru Hirata
, Shoichi Tachimori

Middle East Technical University
Japan Atomic Energy Agency

Research output: Contribution to journal › Article › peer-review

9 Citations (Scopus)

Abstract

Structural stability and energetics of uranium microclusters, U_n (n = 3-13, 27-137), have been investigated by molecular-dynamics simulations. An empirical model potential energy function has been parameterised for the uranium element by using the dimer interaction potential energy profile of U₂, which is calculated by relativistic density functional method. Stable structures of the microclusters for n = 3-13 have been determined by molecular - dynamics simulation. It has been found that uranium microclusters prefer to form three - dimensional compact structures. Molecular - dynamics simulations have also been performed for spherical uranium clusters with sizes n = 27-137.

Original language	English
Pages (from-to)	440-445
Number of pages	6
Journal	Journal of the Physical Society of Japan
Volume	68
Issue number	2
DOIs	https://doi.org/10.1143/JPSJ.68.440
Publication status	Published - Feb 1999
Externally published	Yes

Keywords

Density-functional-theory
Microclusters
Molecular-dynamics
Uranium-dimer

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10.1143/JPSJ.68.440

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year = "1999",

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AU - Erkoç, Şakir

AU - Baştuǧ, Turgut

AU - Hirata, Masaru

AU - Tachimori, Shoichi

PY - 1999/2

Y1 - 1999/2

N2 - Structural stability and energetics of uranium microclusters, Un (n = 3-13, 27-137), have been investigated by molecular-dynamics simulations. An empirical model potential energy function has been parameterised for the uranium element by using the dimer interaction potential energy profile of U2, which is calculated by relativistic density functional method. Stable structures of the microclusters for n = 3-13 have been determined by molecular - dynamics simulation. It has been found that uranium microclusters prefer to form three - dimensional compact structures. Molecular - dynamics simulations have also been performed for spherical uranium clusters with sizes n = 27-137.

AB - Structural stability and energetics of uranium microclusters, Un (n = 3-13, 27-137), have been investigated by molecular-dynamics simulations. An empirical model potential energy function has been parameterised for the uranium element by using the dimer interaction potential energy profile of U2, which is calculated by relativistic density functional method. Stable structures of the microclusters for n = 3-13 have been determined by molecular - dynamics simulation. It has been found that uranium microclusters prefer to form three - dimensional compact structures. Molecular - dynamics simulations have also been performed for spherical uranium clusters with sizes n = 27-137.

KW - Density-functional-theory

KW - Microclusters

KW - Molecular-dynamics

KW - Uranium-dimer

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Molecular-dynamics simulations of uranium microclusters

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Keywords

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