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W2076590322 abstract "Molecular dynamics simulations are performed to study the structure and dynamical heterogeneity in the liquid and glass states of Al using a frequently employed embedded atom potential. While the pair correlation function of the glass and liquid states displays only minor differences, the icosahedral short-range order (ISRO) and the dynamics of the two states are very different. The ISRO is much stronger in the glass than in the liquid. It is also found that both the most mobile and the most immobile atoms in the glass state tend to form clusters, and the clusters formed by the immobile atoms are more compact. In order to investigate the local environment of each atom in the liquid and glass states, a local density is defined to characterize the local atomic packing. There is a strong correlation between the local packing density and the mobility of the atoms. These results indicate that dynamical heterogeneity in glasses is directly correlated to the local structure. We also analyze the diffusion mechanisms of atoms in the liquid and glass states. It is found that for the mobile atoms in the glass state, initially they are confined in the cages formed by their nearest neighbors and vibrating. On the time scale of $ensuremath{beta}$ relaxation, the mobile atoms try to break up the cage confinement and hop into new cages. In the supercooled liquid states, however, atoms continuously diffuse. Furthermore, it is found that on the time scale of $ensuremath{beta}$ relaxation, some of the mobile atoms in the glass state cooperatively hop, which is facilitated by the stringlike cluster structures. On the longer time scale, it is found that a certain fraction of atoms can simultaneously hop, although they are not nearest neighbors. Further analysis shows that these hopping atoms form big and more compact clusters than the characterized most mobile atoms. The cooperative rearrangement of these big compact clusters might facilitate the simultaneous hopping of atoms in the glass states on the long time scale." @default.
W2076590322 created "2016-06-24" @default.
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W2076590322 date "2008-05-13" @default.
W2076590322 modified "2023-10-15" @default.
W2076590322 title "Molecular dynamics investigation of dynamical heterogeneity and local structure in the supercooled liquid and glass states of Al" @default.
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W2076590322 cites W1520904979 @default.
W2076590322 cites W1621485507 @default.
W2076590322 cites W1965234283 @default.
W2076590322 cites W1967303178 @default.
W2076590322 cites W1971481652 @default.
W2076590322 cites W1972911066 @default.
W2076590322 cites W1974178725 @default.
W2076590322 cites W1974195642 @default.
W2076590322 cites W1976849335 @default.
W2076590322 cites W1981374757 @default.
W2076590322 cites W1988251483 @default.
W2076590322 cites W1990386524 @default.
W2076590322 cites W1991178580 @default.
W2076590322 cites W2002792088 @default.
W2076590322 cites W2008937980 @default.
W2076590322 cites W2009905464 @default.
W2076590322 cites W2014827001 @default.
W2076590322 cites W2021089897 @default.
W2076590322 cites W2021898523 @default.
W2076590322 cites W2026120411 @default.
W2076590322 cites W2029778924 @default.
W2076590322 cites W2032548252 @default.
W2076590322 cites W2034006060 @default.
W2076590322 cites W2040081499 @default.
W2076590322 cites W2040179043 @default.
W2076590322 cites W2044361643 @default.
W2076590322 cites W2046492277 @default.
W2076590322 cites W2046645394 @default.
W2076590322 cites W2053590589 @default.
W2076590322 cites W2054057847 @default.
W2076590322 cites W2054474219 @default.
W2076590322 cites W2057532137 @default.
W2076590322 cites W2058241222 @default.
W2076590322 cites W2059441511 @default.
W2076590322 cites W2062035967 @default.
W2076590322 cites W2063039567 @default.
W2076590322 cites W2064430530 @default.
W2076590322 cites W2066599827 @default.
W2076590322 cites W2068308345 @default.
W2076590322 cites W2068493779 @default.
W2076590322 cites W2069342880 @default.
W2076590322 cites W2074105630 @default.
W2076590322 cites W2078047375 @default.
W2076590322 cites W2078457847 @default.
W2076590322 cites W2080911709 @default.
W2076590322 cites W2084420590 @default.
W2076590322 cites W2089212778 @default.
W2076590322 cites W2090199313 @default.
W2076590322 cites W2092204065 @default.
W2076590322 cites W2114479908 @default.
W2076590322 cites W2147608623 @default.
W2076590322 cites W2158036413 @default.
W2076590322 cites W2164092622 @default.
W2076590322 cites W2170797104 @default.
W2076590322 cites W2171309858 @default.
W2076590322 cites W2995067424 @default.
W2076590322 cites W3104005636 @default.
W2076590322 doi "https://doi.org/10.1103/physrevb.77.184202" @default.
W2076590322 hasPublicationYear "2008" @default.
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