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Philosophical Magazine Volume 96, 2016 - Issue 6
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Part B: Condensed Matter Physics

Insight into lattice thermal impedance via equilibrium molecular dynamics: case study on Al

Alexander V. EvteevThe University Centre for Mass and Thermal Transport in Engineering Materials, Priority Research Centre for Geotechnical and Materials Modelling, School of Engineering, The University of Newcastle, Callaghan, NSW2308, AustraliaCorrespondence[email protected]
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,
Elena V. LevchenkoThe University Centre for Mass and Thermal Transport in Engineering Materials, Priority Research Centre for Geotechnical and Materials Modelling, School of Engineering, The University of Newcastle, Callaghan, NSW2308, AustraliaView further author information
,
Leila MomenzadehThe University Centre for Mass and Thermal Transport in Engineering Materials, Priority Research Centre for Geotechnical and Materials Modelling, School of Engineering, The University of Newcastle, Callaghan, NSW2308, AustraliaView further author information
,
Irina V. BelovaThe University Centre for Mass and Thermal Transport in Engineering Materials, Priority Research Centre for Geotechnical and Materials Modelling, School of Engineering, The University of Newcastle, Callaghan, NSW2308, AustraliaView further author information
&
Graeme E. MurchThe University Centre for Mass and Thermal Transport in Engineering Materials, Priority Research Centre for Geotechnical and Materials Modelling, School of Engineering, The University of Newcastle, Callaghan, NSW2308, AustraliaView further author information
Pages 596-619 | Received 09 Aug 2015, Accepted 13 Jan 2016, Published online: 15 Feb 2016
 
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Abstract

Using results of equilibrium molecular dynamics simulation in conjunction with the Green–Kubo formalism, we present a general treatment of thermal impedance of a crystal lattice with a monatomic unit cell. The treatment is based on an analytical expression for the heat current autocorrelation function which reveals, in a monatomic lattice, an energy gap between the origin of the phonon states and the beginning of the energy spectrum of the so-called acoustic short-range phonon modes. Although, we consider here the f.c.c. Al model as a case example, the analytical expression is shown to be consistent for different models of elemental f.c.c. crystals over a wide temperature range. Furthermore, we predict a frequency ‘window’ where the thermal waves can be generated in a monatomic lattice by an external periodic temperature perturbation.

Funding

This research was supported by the Australian Research Council through its Discovery Project Grants Scheme.

Additional information

Funding

This research was supported by the Australian Research Council through its Discovery Project Grants Scheme.

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