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Autore principale: Dangić, Đorđe
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2511.20360
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author Dangić, Đorđe
author_facet Dangić, Đorđe
contents Thermal transport in highly anharmonic, amorphous, or alloyed materials often deviates from the predictions of conventional phonon-based models. First-principles approaches have introduced a coherent contribution to account for these deviations and to explain ultra-low lattice thermal conductivity, but direct experimental evidence for this mechanism remains elusive. Here, we propose that the frequency-dependent lattice thermal conductivity, $κ(ν)$, provides a direct signature of coherent transport. Specifically, we show that peaks in $κ(ν)$ arise from the frequency nesting of modes with identical wave vectors. Applying this approach to CuCl, we identify clear signatures of coherent transport in its dynamical lattice thermal conductivity. We revisit the interpretation of thermoreflectance experiments and argue that the conventional understanding breaks down in strongly anharmonic crystals, alloys, and amorphous materials. Finally, we discuss experimental pathways to measure $κ(ν)$, offering a new route to verify coherent contributions in thermal transport.
format Preprint
id arxiv_https___arxiv_org_abs_2511_20360
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Signatures of coherent phonon transport in frequency dependent lattice thermal conductivity
Dangić, Đorđe
Materials Science
Thermal transport in highly anharmonic, amorphous, or alloyed materials often deviates from the predictions of conventional phonon-based models. First-principles approaches have introduced a coherent contribution to account for these deviations and to explain ultra-low lattice thermal conductivity, but direct experimental evidence for this mechanism remains elusive. Here, we propose that the frequency-dependent lattice thermal conductivity, $κ(ν)$, provides a direct signature of coherent transport. Specifically, we show that peaks in $κ(ν)$ arise from the frequency nesting of modes with identical wave vectors. Applying this approach to CuCl, we identify clear signatures of coherent transport in its dynamical lattice thermal conductivity. We revisit the interpretation of thermoreflectance experiments and argue that the conventional understanding breaks down in strongly anharmonic crystals, alloys, and amorphous materials. Finally, we discuss experimental pathways to measure $κ(ν)$, offering a new route to verify coherent contributions in thermal transport.
title Signatures of coherent phonon transport in frequency dependent lattice thermal conductivity
topic Materials Science
url https://arxiv.org/abs/2511.20360