Thermal Transport in Disordered Materials

IF 2.7 3区 工程技术 Q2 ENGINEERING, MECHANICAL Nanoscale and Microscale Thermophysical Engineering Pub Date : 2018-12-16 DOI:10.1080/15567265.2018.1519004
F. DeAngelis, M. Muraleedharan, J. Moon, H. Seyf, A. Minnich, A. McGaughey, A. Henry
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引用次数: 64

Abstract

ABSTRACT We review the status of research on thermal/phonon transport in disordered materials. The term disordered materials is used here to encompass both structural and compositional disorder. It includes structural deviations ranging from an ideal crystal with disordered arrangements of defects all the way to fully amorphous materials, as well as crystals with impurities up through multi-component random alloys. Both types of disorder affect phonons by breaking the symmetry of an idealized crystal and changing their character/mode shapes. These effects have important implications with regard to phonon–phonon interactions, phonon transport and phonon interactions with other quantum particles, which are being actively investigated. Herein, we synthesize the current theoretical understanding, identify the aspects of the problem that require more work, and pose open questions. Abbreviations: BTE: Boltzmann transport equation; DFT: Density functional theory; EPP: Eigenvector periodicity parameter; FAFDTR: Fiber-aligned frequency domain thermoreflectance; GK: Green–Kubo; GKMA: Green–Kubo modal analysis; HCACF: Heat current autocorrelation function; IXS: Inelastic X-ray scattering; LD: Lattice dynamics; LJ: Lennard–Jones; MD: Molecular dynamics; MFP: Mean free path; NEMD: Non-equilibrium molecular dynamics; NMD: Normal-mode dynamics; PDL: Propagon, diffuson, locon; PGM: Phonon gas model; PR: Participation ratio; SCLD: Supercell lattice dynamics; SED: Spectral energy density; TDTR: Time-domain thermoreflectance; VCA: Virtual crystal approximation;
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无序材料中的热输运
综述了无序材料中热/声子输运的研究现状。这里使用的术语无序材料包括结构无序和成分无序。它包括从缺陷无序排列的理想晶体到完全非晶材料的结构偏差,以及从杂质到多组分无规合金的晶体。这两种类型的无序都通过破坏理想化晶体的对称性并改变其特性/模式形状来影响声子。这些效应对声子-声子相互作用、声子输运和声子与其他量子粒子的相互作用具有重要意义,目前正在积极研究。在此,我们综合了当前的理论理解,确定了问题中需要更多工作的方面,并提出了悬而未决的问题。缩写:BTE:玻尔兹曼输运方程;DFT:密度泛函理论;EPP:特征向量周期性参数;光纤定向频域热反射率;GK:绿色-Kubo;GKMA:Green–Kubo模态分析;HCACF:热流自相关函数;IXS:非弹性X射线散射;LD:晶格动力学;LJ:Lennard–Jones;MD:分子动力学;MFP:平均自由程;NEMD:非平衡分子动力学;NMD:正常模式动力学;PDL:Propagon,diffuson,locon;PGM:Phonon气体模型;PR:参与率;SCLD:超晶格动力学;SED:光谱能量密度;TDTR:时域热反射率;VCA:虚拟晶体近似;
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来源期刊
Nanoscale and Microscale Thermophysical Engineering
Nanoscale and Microscale Thermophysical Engineering 工程技术-材料科学:表征与测试
CiteScore
5.90
自引率
2.40%
发文量
12
审稿时长
3.3 months
期刊介绍: Nanoscale and Microscale Thermophysical Engineering is a journal covering the basic science and engineering of nanoscale and microscale energy and mass transport, conversion, and storage processes. In addition, the journal addresses the uses of these principles for device and system applications in the fields of energy, environment, information, medicine, and transportation. The journal publishes both original research articles and reviews of historical accounts, latest progresses, and future directions in this rapidly advancing field. Papers deal with such topics as: transport and interactions of electrons, phonons, photons, and spins in solids, interfacial energy transport and phase change processes, microscale and nanoscale fluid and mass transport and chemical reaction, molecular-level energy transport, storage, conversion, reaction, and phase transition, near field thermal radiation and plasmonic effects, ultrafast and high spatial resolution measurements, multi length and time scale modeling and computations, processing of nanostructured materials, including composites, micro and nanoscale manufacturing, energy conversion and storage devices and systems, thermal management devices and systems, microfluidic and nanofluidic devices and systems, molecular analysis devices and systems.
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