Thermal conductivity of glassy GeTe4by first-principles molecular dynamics | Zendy

Assil Bouzid | Zendy; Hayat Zaoui | Zendy; Pier Luca Palla | Zendy; Guido Ori | Zendy; Mauro Boero | Zendy; Carlo Massobrio | Zendy; Fabrizio Cleri | Zendy; E. Lampin | Zendy

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Thermal conductivity of glassy GeTe₄by first-principles molecular dynamics

Author(s) -

Assil Bouzid,

Hayat Zaoui,

Pier Luca Palla,

Guido Ori,

Mauro Boero,

Carlo Massobrio,

Fabrizio Cleri,

E. Lampin

Publication year - 2017

Publication title -

physical chemistry chemical physics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.053

H-Index - 239

eISSN - 1463-9084

pISSN - 1463-9076

DOI - 10.1039/c7cp01063j

Subject(s) - thermal conductivity , molecular dynamics , materials science , chemical physics , thermal , conductivity , dynamics (music) , statistical physics , nanotechnology , thermodynamics , condensed matter physics , chemistry , computational chemistry , physics , composite material , acoustics

A transient thermal regime is achieved in glassy GeTe 4 by first-principles molecular dynamics following the recently proposed "approach-to-equilibrium" methodology. The temporal and spatial evolution of the temperature do comply with the time-dependent solution of the heat equation. We demonstrate that the time scales required to create the hot and the cold parts of the system and observe the resulting approach to equilibrium are accessible to first-principles molecular dynamics. Such a strategy provides the thermal conductivity from the characteristic decay time. We rationalize in detail the impact on the thermal conductivity of the initial temperature difference, the equilibration duration, and the main simulation features.

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