Evaluation of the memory kernel for fluctuation decay in simulated glass-forming ${Ni}_{0.5}$ ${Zr}_{0.5}$ liquids

1 May 1996

journal article
research article
Published by American Physical Society (APS) in Physical Review E

Vol. 53 (5) , R4287-R4290
https://doi.org/10.1103/physreve.53.r4287

Abstract

Molecular dynamics simulations for undercooled glass-forming

{Ni}_{0.5}

{Zr}_{0.5}

liquids are analyzed to evaluate the memory kernel that governs the decay of structural fluctuations according to the schematic model of the mode coupling theory. The resulting kernel exhibits significant structures which explains the absence of the inverse power law decay in the early

β

regime.

Keywords

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Evaluation of the memory kernel for fluctuation decay in simulated glass-formingNi0.5Zr0.5liquids

Abstract

Keywords

Evaluation of the memory kernel for fluctuation decay in simulated glass-forming ${Ni}_{0.5}$ ${Zr}_{0.5}$ liquids