摘要
GeTe has attracted extensive research interest for thermoelectric applications.In this paper,we first train a neuroevolution potential(NEP)based on a dataset constructed by ab initio molecular dynamics,with the Gaussian approximation potential(GAP)as a reference.The phonon density of states is then calculated by two machine learning potentials and compared with density functional theory results,with the GAP potential having higher accuracy.Next,the thermal conductivity of a GeTe crystal at 300 K is calculated by the equilibrium molecular dynamics method using both machine learning potentials,and both of them are in good agreement with the experimental results;however,the calculation speed when using the NEP potential is about 500 times faster than when using the GAP potential.Finally,the lattice thermal conductivity in the range of 300 K-600 K is calculated using the NEP potential.The lattice thermal conductivity decreases as the temperature increases due to the phonon anharmonic effect.This study provides a theoretical tool for the study of the thermal conductivity of GeTe.
作者
张健
张昊春
李伟峰
张刚
Jian Zhang;Hao-Chun Zhang;Weifeng Li;Gang Zhang(School of Energy Science and Engineering,Harbin Institute of Technology,Harbin 150001,China;Institute of High Performance Computing,Agency for Science,Technology and Research,Singapore 138632,Singapore;School of Physics&State Key Laboratory of Crystal Materials,Shandong University,Jinan 250100,China)
基金
Project supported by the A*STAR Computational Resource Centre through the use of its high-performance computing facilities
financial support from the China Scholarship Council (Grant No.202206120136)。
