2021
DOI: 10.1063/5.0052230
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Review of coherent phonon and heat transport control in one-dimensional phononic crystals at nanoscale

Abstract: Note: This paper is part of the Special Topic on Phononic Crystals at Various Frequencies.

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Cited by 28 publications
(11 citation statements)
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“…The coherent phonon transport is observed indirectly by the characterization of macroscopic variables, such as the non-monotonic variation of the thermal conductivity with the period length in phononic crystal structures [36,52], the variation of thermal conductivity with boundary roughness [71] or aperiodic structures [54,72], and temperature oscillation effect in superlattice [73]. Interested readers can refer to recent reviews [34][35][36] on the effect of coherent phonon transport on thermal conductivity. Moreover, phonon coherence manifests in various ways, such as hybridized phonon modes, phonon localization, and modal phonon interference.…”
Section: Phonon Interference Effectsmentioning
confidence: 99%
See 1 more Smart Citation
“…The coherent phonon transport is observed indirectly by the characterization of macroscopic variables, such as the non-monotonic variation of the thermal conductivity with the period length in phononic crystal structures [36,52], the variation of thermal conductivity with boundary roughness [71] or aperiodic structures [54,72], and temperature oscillation effect in superlattice [73]. Interested readers can refer to recent reviews [34][35][36] on the effect of coherent phonon transport on thermal conductivity. Moreover, phonon coherence manifests in various ways, such as hybridized phonon modes, phonon localization, and modal phonon interference.…”
Section: Phonon Interference Effectsmentioning
confidence: 99%
“…In recent decades, experimental, theoretical, and computational developments have promoted the understanding of nanoscale heat conduction . Recent advances in various interesting phonon phenomena, such as hydrodynamic phonon transport [31][32][33], coherent phonon transport [34][35][36], interfacial thermal transport [1], and phononmagnon interaction [37], have been reviewed. Moreover, emerging phonon phenomena similar to electron transport have been discovered, such as hydrodynamic phonon transport [31,32], phonon coherence [26,38], weak coupling [39], and topological and high-order anharmonicity of phonon [40][41][42][43][44][45].…”
Section: Introductionmentioning
confidence: 99%
“…In addition, the zero-point energy should be included in the phonon occupation number when the temperature is above onethird of T D . [249] At low temperature, other methods, such as Monte Carlo simulations [213,[250][251][252][253][254][255][256] and ab initio calculations [257][258][259] mainly based on the discussion in Section 3.2.1, are more applicable to obtain κ and have been largely applied in recent literature on PnCs and MMs. Other methods, such as the Allen-Feldman theory for disordered harmonic solids [260] and atomistic Green's function method, [261] have also been widely used to study phonon transport, however, with constraints, including the negligence of anharmonicity, which requires further adaptations in their applications.…”
Section: Molecular Dynamics Simulation Of Phonon Transportmentioning
confidence: 99%
“…As such, this will offer new opportunities to probe, manipulate and understand the acoustic and thermal properties of Silicon-On-Insulatorrelated metamaterials and metasurfaces which are devoted to heat management at the nanoscale. [19]…”
Section: Active Acoustic Phonon Controlmentioning
confidence: 99%