Electron-Ion Correlation in Liquid Metals from First Principles: Liquid Mg and Liquid Bi

GA de Wijs; G Pastore; A Selloni; W  van der Lugt

doi:10.1103/physrevlett.75.4480

Electron-Ion Correlation in Liquid Metals from First Principles: Liquid Mg and Liquid Bi

GA de Wijs^*
, G Pastore
, A Selloni
, W van der Lugt

^*Corresponding author for this work

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

41 Citations (Scopus)

Abstract

We present a theoretical determination of electron-ion pair correlation functions g(ie) in liquid Mg and liquid Bi, two systems with widely different electronic and cohesive properties. Our calculations are based on first-principles molecular-dynamics simulations, which provide an accurate and mutually consistent description of the atomic and electronic structures of these systems. Our results show that g(ie) exhibits substantially different features in Mg and Bi liquids. For liquid Mg, g(ie) clearly reflects the delocalization of the valence atomic charge related to metallic bond formation. In the case of Bi, instead, the spherical average implicit in g(ie) does not allow it to reveal the existence of transient directional bonds which are an important feature of the charge density in this liquid.

Original language	English
Pages (from-to)	4480-4483
Number of pages	4
Journal	Physical Review Letters
Volume	75
Issue number	24
DOIs	https://doi.org/10.1103/physrevlett.75.4480
Publication status	Published - 11-Dec-1995

Keywords

NEUTRON-DIFFRACTION
MOLECULAR-DYNAMICS
SODIUM
SCATTERING
MODEL

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title = "Electron-Ion Correlation in Liquid Metals from First Principles: Liquid Mg and Liquid Bi",

abstract = "We present a theoretical determination of electron-ion pair correlation functions g(ie) in liquid Mg and liquid Bi, two systems with widely different electronic and cohesive properties. Our calculations are based on first-principles molecular-dynamics simulations, which provide an accurate and mutually consistent description of the atomic and electronic structures of these systems. Our results show that g(ie) exhibits substantially different features in Mg and Bi liquids. For liquid Mg, g(ie) clearly reflects the delocalization of the valence atomic charge related to metallic bond formation. In the case of Bi, instead, the spherical average implicit in g(ie) does not allow it to reveal the existence of transient directional bonds which are an important feature of the charge density in this liquid.",

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author = "\{de Wijs\}, GA and G Pastore and A Selloni and \{van der Lugt\}, W",

note = "Journal DEC 11 TJ630 PHYS REV LETT",

year = "1995",

month = dec,

day = "11",

doi = "10.1103/physrevlett.75.4480",

language = "English",

volume = "75",

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journal = "Physical Review Letters",

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publisher = "AMER PHYSICAL SOC",

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T1 - Electron-Ion Correlation in Liquid Metals from First Principles: Liquid Mg and Liquid Bi

AU - de Wijs, GA

AU - Pastore, G

AU - Selloni, A

AU - van der Lugt, W

N1 - Journal DEC 11 TJ630 PHYS REV LETT

PY - 1995/12/11

Y1 - 1995/12/11

N2 - We present a theoretical determination of electron-ion pair correlation functions g(ie) in liquid Mg and liquid Bi, two systems with widely different electronic and cohesive properties. Our calculations are based on first-principles molecular-dynamics simulations, which provide an accurate and mutually consistent description of the atomic and electronic structures of these systems. Our results show that g(ie) exhibits substantially different features in Mg and Bi liquids. For liquid Mg, g(ie) clearly reflects the delocalization of the valence atomic charge related to metallic bond formation. In the case of Bi, instead, the spherical average implicit in g(ie) does not allow it to reveal the existence of transient directional bonds which are an important feature of the charge density in this liquid.

AB - We present a theoretical determination of electron-ion pair correlation functions g(ie) in liquid Mg and liquid Bi, two systems with widely different electronic and cohesive properties. Our calculations are based on first-principles molecular-dynamics simulations, which provide an accurate and mutually consistent description of the atomic and electronic structures of these systems. Our results show that g(ie) exhibits substantially different features in Mg and Bi liquids. For liquid Mg, g(ie) clearly reflects the delocalization of the valence atomic charge related to metallic bond formation. In the case of Bi, instead, the spherical average implicit in g(ie) does not allow it to reveal the existence of transient directional bonds which are an important feature of the charge density in this liquid.

KW - NEUTRON-DIFFRACTION

KW - MOLECULAR-DYNAMICS

KW - SODIUM

KW - SCATTERING

KW - MODEL

U2 - 10.1103/physrevlett.75.4480

DO - 10.1103/physrevlett.75.4480

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SN - 0031-9007

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EP - 4483

JO - Physical Review Letters

JF - Physical Review Letters

IS - 24

ER -

Electron-Ion Correlation in Liquid Metals from First Principles: Liquid Mg and Liquid Bi

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